JP2010112368A - Various energy conservation cycle united engine - Google Patents

Various energy conservation cycle united engine Download PDF

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JP2010112368A
JP2010112368A JP2009033679A JP2009033679A JP2010112368A JP 2010112368 A JP2010112368 A JP 2010112368A JP 2009033679 A JP2009033679 A JP 2009033679A JP 2009033679 A JP2009033679 A JP 2009033679A JP 2010112368 A JP2010112368 A JP 2010112368A
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liquid metal
turbine
mass
engine
gravity
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Hiroyasu Tanigawa
浩保 谷川
Kazunaga Tanigawa
和永 谷川
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/40Solar thermal energy, e.g. solar towers
    • Y02E10/46Conversion of thermal power into mechanical power, e.g. Rankine, Stirling or solar thermal engines

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Abstract

<P>PROBLEM TO BE SOLVED: To provide a liquid metal gravity solar power engine which can obtain a 10,000 to 23,000 times rotation output injection output of an existing engine. <P>SOLUTION: In the liquid metal gravity solar heat engine, three-kind vertical type whole moving blade gravity solar heat turbines are set to (gravitational acceleration)+(superheated steam acceleration)+(combustion gas acceleration of liquid metal); atmospheric pressure same speed same volume liquid metal power is set to 10,000 to 23,000 times of an existing steam turbine; output of the same fuel quantity is approached to 20,000 times of an existing engine by driving a vertical type whole moving blade liquid metal gravity solar heat engine at additional acceleration with every second of gravitational acceleration of 9.8 m/sec vertically downward in the vacuum direction; a heat manufacturing quantity is approached to infinity by a heat pump, to aim at 100 times of an existing technology in injection propulsion output, to drive various aircraft such as various ships and space shuttles; fuel consumption is reduced and CO2 exhaust gas is reduced; limited resources such as fossil fuel are left for a descendant; and global warning is also prevented. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

地球最大加速が重力加速度で最大熱量が太陽光です。従って重力加速度太陽熱利用理論最良エンジンを、竪型全動翼液体金属重力太陽熱タービン8G3種類から選択使用として、圧縮空気熱量液体金属重力駆動タービン+圧縮空気質量液体金属重力駆動タービン+真空中液体金属重力駆動タービンとし、液体金属を合金を含む水銀・液体鉛・液体ビスマス・液体錫・液体カドミウム・液体インジウム・液体ガリウム・液体亜鉛・液体タリウム・その他から選択実験使用として、竪型全動翼液体金属重力太陽熱タービン8Gを用途に合わせて多段に設けて落差を増大した出力増大とし、合金を含む液体金属を400MPa等液体金属噴射ポンプ6Lで3種類タービンに噴射して、タービン駆動の過程では、最適温度液体金属を圧縮空気熱量速度+圧縮空気質量速度+真空中の重力で加速し、タービン翼断面4Xを既存蒸気タービンの2〜25倍にしたタービン翼8cに噴射して、夫々を液体金属の転がり接触回転出力の増大とし、タービン間に横軸1hを設けて、横軸1h発電機1や横軸1h熱ポンプ1G多数で熱製造をタービン外箱77a外で駆動して、3種類竪型全動翼液体金属重力太陽熱タービン8Gの回転方向を交互にし、振動や騒音を相殺して、液体金属の回転出力発生にし、排気室に空気抽出器51を設けて真空中の重力加速度利用や排気室の圧力低下として、実験最良エンジンに移行温度管理の竪型全動翼液体金属重力太陽熱タービン技術に関する。   The maximum acceleration of the earth is gravitational acceleration and the maximum heat is sunlight. Therefore, the gravity acceleration solar heat utilization theory best engine is selected from the vertical type moving blade liquid metal gravity solar turbine 8G3 type, compressed air calorie liquid metal gravity driven turbine + compressed air mass liquid metal gravity driven turbine + liquid metal gravity in vacuum As a driving turbine, select a liquid metal from mercury, liquid lead, liquid bismuth, liquid tin, liquid cadmium, liquid indium, liquid gallium, liquid zinc, liquid thallium, etc. The gravity solar thermal turbine 8G is provided in multiple stages according to the application to increase the output by increasing the head, and the liquid metal containing the alloy is injected into the three types of turbines by the liquid metal injection pump 6L such as 400MPa. Temperature liquid metal is accelerated by compressed air calorie velocity + compressed air mass velocity + gravity in vacuum. The blade cross section 4X is injected into the turbine blade 8c which is 2 to 25 times the existing steam turbine, each of which is increased in the rolling contact rotation output of the liquid metal, the horizontal shaft 1h is provided between the turbines, and the horizontal shaft 1h generator 1 or horizontal shaft 1h heat pump 1G heat production is driven outside the turbine outer box 77a to alternately rotate the rotation direction of the three types of all-type blade type liquid metal gravity solar thermal turbine 8G to cancel vibration and noise In order to generate a rotational output of liquid metal, an air extractor 51 is provided in the exhaust chamber to use gravity acceleration in vacuum or to reduce the pressure in the exhaust chamber. Related to turbine technology.

タービン回転出力により熱ポンプ1Gを駆動、長レンズ2d熱吸収材2Bで構成の吸入空気路28A太陽熱加熱空気28aを吸入し、繰り返し圧縮燃料燃焼を可能に600〜1200度にして熱回収繰り返し200度前後等として、最終圧縮熱回収冷却の過程で、液体酸素の圧入を含めて燃料噴射燃焼限りなく高圧燃焼熱交換冷却燃焼し、圧縮熱回収器2Cの水熱交換器2Yや液体金属熱交換器2Jで熱交換空気を冷却して、500度前後24〜400MPa過熱蒸気50(燃焼ガス熱量)+100〜300度前後24〜400MPa燃焼ガス圧力(燃焼ガス質量)+最適温度液体金属に分割保存使用し、最適温度液体金属を液体金属噴射ポンプ6Lで3種類タービンに噴射して、分割保存した夫々の圧力速度で2種類タービンの噴射液体金属を加速し、真空を利用して1種類タービンの噴射液体金属を加速して、3種類の竪型全動翼液体金属重力太陽熱タービン8Gを駆動し、夫々の大気圧同速度同容積仕事率kg重m/秒を、既存蒸気タービン出力の1700×5.91〜13.55倍=1〜2.3万倍液体金属出力として、排気の過程では空気抽出器51で燃焼ガス質量排気を吸引して燃焼ガス熱量排気を冷却噴射し、噴射燃焼ガス質量排気に燃料噴射着火燃焼噴射推進出力の増大を可能にして、CO2排気僅少で夫々の回転出力を発生する、実験移行温度管理の液体金属重力太陽熱エンジン技術に関する。 The heat pump 1G is driven by the turbine rotation output, the intake air passage 28A composed of the long lens 2d heat absorbing material 2B is sucked in, and the solar heating air 28a is sucked to enable repeated compressed fuel combustion to 600 to 1200 degrees and heat recovery is repeated 200 degrees. Before and after, in the final compression heat recovery cooling process, including high pressure combustion heat exchange cooling combustion including liquid oxygen injection, the water heat exchanger 2Y of the compression heat recovery unit 2C and the liquid metal heat exchanger Cool the heat exchange air at 2J, and use 24 to 400 MPa superheated steam 50 (combustion gas calorie) around 500 ° C + 24 to 400 MPa combustion gas pressure (combustion gas mass) around 100 ° C to 300 ° C + optimum temperature divided into liquid metal , Optimal temperature liquid metal is injected into 3 types of turbine by liquid metal injection pump 6L, and 2 types of turbine injection liquid gold at each pressure speed stored separately Accelerate the jet liquid metal of one kind of turbine using vacuum and drive three kinds of vertical all-blade liquid metal gravity solar thermal turbine 8G, each atmospheric pressure, same speed, same volume power kg Heavy m / sec is 1700 x 5.91 to 13.55 times the existing steam turbine output = 1 to 23,000 times liquid metal output, and the exhaust gas mass exhaust is sucked by the air extractor 51 in the exhaust process. The combustion gas calorie exhaust is cooled and injected, and the mass injection of the injected combustion gas enables the increase of the fuel injection ignition combustion injection propulsion output, generating the respective rotational output with little CO2 exhaust, liquid metal gravity with experimental transition temperature management Related to solar engine technology.

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

出力や仕事率の単位がkg重m/秒等重量×速度のため、重い物質を重力加速度加速にして回転出力を発生するのが理論最良エンジンですが、考えた痕跡が皆無という背景があります。そこで消費燃料僅少の竪型全動翼液体金属重力太陽熱エンジン駆動飛行機類や船舶類にして、停止中は熱と電気と冷熱の供給設備で使用可能に地球温暖化防止する等とし、大気圧同速度同容積仕事率kg重m/秒を既存蒸気タービンの1〜2.3万倍液体金属仕事率にして、水銀・液体鉛・液体ビスマス・液体錫・液体カドミウム・液体インジウム・液体ガリウム・液体亜鉛・水・液体タリウム等液体金属を垂直下方に重力加速度加速にすると、低速で落差を増大する入力より重力加速度加速だけでも出力発生は大幅に増大し、気化爆発力を追加した出力として、タービンの大型化多数化+落差を1000m以上に増大限り無く出力を増大できる背景があります。地球での最大加速が重力加速度で無限大に近く、海水温度上昇0やCO2排気0や燃料費0の理論最良エンジン重力発電として、化石燃料等限りある資源が枯渇するため、限りある資源を子孫に残す手段の温熱や冷熱の回収利用無限大や無限大に近い発電量とし、重力発電蓄電池駆動や電気駆動の、各種自動車類全盛や各種船舶類全盛や全面電化住宅全盛等、極端に安価な発電の蓄電池駆動や電気駆動の地球温暖化防止が得られる背景があります。   Since the unit of output and power is kg weight m / sec, equal weight x speed, the best engine theoretically generates a rotating output by accelerating gravitational acceleration of heavy substances, but there is a background that there is no trace of thought. Therefore, it would be possible to use an all-blade liquid metal gravity solar thermal engine driven airplane or ship that consumes little fuel, and to use it with heat, electricity, and cold supply equipment while it is stopped, to prevent global warming, etc. Speed, volumetric capacity kg weight m / sec is 1 to 23,000 times higher than that of existing steam turbine, and liquid metal work rate is mercury, liquid lead, liquid bismuth, liquid tin, liquid cadmium, liquid indium, liquid gallium, liquid When gravity acceleration of liquid metal such as zinc, water, liquid thallium, etc. is performed vertically downward, the generation of output is greatly increased even with acceleration of gravity acceleration alone rather than the input that increases the head at low speed. There is a background that can increase the output without increasing the number of large size + head to 1000m or more. Since the maximum acceleration on the earth is almost infinite in terms of gravitational acceleration, and the theoretical best engine gravity power generation with zero seawater temperature rise, zero CO2 exhaust, and zero fuel cost, fossil fuels and other limited resources are depleted, so limited resources are descended Recovering and using heat and cold as the means to leave the power generation amount is infinite or nearly infinite, and it is extremely inexpensive, such as gravitational power storage battery drive and electric drive, various types of automobiles, various types of ships, and full-scale electrified houses There is a background that can be used to prevent global warming by driving electric storage batteries and driving electricity.

昭和17〜18年に理論最良エンジンの発明を決意実際は改良から始め、昭和38年岡山地方発明センターの請負で試作を開始して、自分でも試作を続けましたがエンジンの試作は非常に困難です。そこで昭和57年2月より国内大企業等多数にご協力のお願い始めましたが、日本企業等の協力が皆無で、外国唯一お願いしたクリントン大統領の協力がお願いの都度3年3回得られ、1992年米国特許5133305号、1993年米国特許5230307号、1995年米国特許5429078号の駄目発明が判明したのです。既存のエンジンに致命的な欠点が非常に多く改良発明不可能が判明し、急がば回れと1997年ホームページを開設して欠点を1つ改良特許出願して、2008年理論最良エンジンに到達し、元大統領の協力により例えば重力太陽熱発電により燃料費0で発電機及び熱ポンプを駆動して、無限大に近い電気及び温熱と冷熱を極端に安価製造タービン駆動可能とし、500°C以下液体金属発電で、大気圧同速度同容積仕事率を既存蒸気タービン発電の1〜2.3万倍にして、実際に実験して実験最良エンジンに移行したいのです。   Decided to invent the theoretical best engine in 1958 and 1980. Actually started with improvements, started the prototype at the Okayama Regional Invention Center in 1963, and continued to make the prototype myself, but the engine prototype was very difficult. . Therefore, in February 1982, we started requesting cooperation from a large number of domestic large corporations, etc., but there was no cooperation from Japanese companies, etc., and every time we asked for the cooperation of President Clinton, the only request from foreign countries, three times a year, The 1992 US Patent 5133305, 1993 US Patent 5230307, and 1995 US Patent 5429078 were found to be useless. There were so many fatal faults in the existing engine that it was impossible to improve the invention. In a hurry, the 1997 homepage was opened, and a patent for improving one fault was filed. With the cooperation of the former president, for example, gravitational solar power generation can drive generators and heat pumps at zero fuel cost, making it possible to drive nearly infinite electricity, heat and cold at an extremely inexpensive manufacturing turbine, and liquid metal below 500 ° C With power generation, I want to make the atmospheric pressure, the same speed, and the same volumetric power of 1 to 23,000 times that of the existing steam turbine power generation, and actually experiment and move to the best experimental engine.

米国特許第6119650号、中国特許第8818号、EU英国特許902175号、米国特許第6263664号があり、上記多数の背景技術を改良や、下記特許文献2も理論最良エンジン発明の過程の発明や、実験最良を狙う発明では、液体金属重力発電で蒸気タービン発電の1〜2.3万倍発電にする実験をしよう、太陽熱を種に重力駆動熱ポンプで無限大に近い温熱と冷熱製造の実験をしよう、液体金属重力発電で既存世界の10倍発電量にしよう、化石燃料等限りある資源の燃焼は必要最小限にして子孫に残そう、等があります。There are US Pat. No. 6,119,650, Chinese Patent No. 8818, EU British Patent No. 902175, US Pat. No. 6,263,664, and many of the above-mentioned background technologies have been improved. In the invention aiming at the best experiment, let's experiment to make liquid metal gravity power generation 1 to 23,000 times that of steam turbine power generation, using solar heat as a seed, experiment of warm and cold production near infinity with gravity driven heat pump Let's make liquid metal gravity power generation 10 times as much as the existing world, fossil fuels and other limited resources to burn to the next generation with the minimum necessary.

先の出願として特願2007−179204号、特願2007−221970号、特願2007−237367号、特願2007−250348号、特願2007−265115号、特願2008−6612号、特願2008−22246号、特願2008−24656号、特願2008−28582号、特願2008−30162号、特願2008−94452号、特願2008−99870号、特願2008−125665号、特願2008−134046号、特願2008−137629号、特願2008−157556号、特願2008−158830号、特願2008−162842号、特願2008−164111号、特願2008−166907号、特願2008−169979号、特願2008−173046号、特願2008−174231号、特願2008−178700号、特願2008−179872号、特願2008−181052号、特願2008−182325号、特願2008−186795号、特願2008−188165号、特願2008−202677号、特願2008−203842号、特願2008−206632号、特願2008−209497号、特願2008−214912号、特願2008−229434号、特願2008−231842号、特願2008−243690号、特願2008−245061号、特願2008−249719号、特願2008−256006号、特願2008−266020号、特願2008−269294号、特願2008−282825号、特願2008−288411号、特願2008−290630号、特願2008−295174号、特願2008−299091号、特願2008−305951号、特願2008−319210、特願2008−327045号と、実験最良を狙う特願2009−011656号、特願2009−013856号、特願2009−015027号、特願2009−016249号、特願2009−021161号、特願2009−022247号、特願2009−023345号、特願2009−024512号、特願2009−025684号、特願2009−026989号、特願2009−028105号、特願2009−028150号、特願2009−028253号、特願2009−029406号、特願2009−029471号、特願2009−029539号、特願2009−030759号、特願2009−030865号、特願2009−030942号、特願2009−032264号、特願2009−032312号、特願2009−032378号があります。As prior applications, Japanese Patent Application No. 2007-179204, Japanese Patent Application No. 2007-221970, Japanese Patent Application No. 2007-237367, Japanese Patent Application No. 2007-250348, Japanese Patent Application No. 2007-265115, Japanese Patent Application No. 2008-6612, and Japanese Patent Application No. 2008- No. 22246, Japanese Patent Application No. 2008-24656, Japanese Patent Application No. 2008-28582, Japanese Patent Application No. 2008-30162, Japanese Patent Application No. 2008-94452, Japanese Patent Application No. 2008-99870, Japanese Patent Application No. 2008-125665, Japanese Patent Application No. 2008-134046. No., Japanese Patent Application No. 2008-137629, Japanese Patent Application No. 2008-157556, Japanese Patent Application No. 2008-158830, Japanese Patent Application No. 2008-162842, Japanese Patent Application No. 2008-164111, Japanese Patent Application No. 2008-166907, Japanese Patent Application No. 2008-169799. Japanese Patent Application No. 2008-173046, Japanese Patent Application No. 20 Japanese Patent Application No. 8-174231, Japanese Patent Application No. 2008-178700, Japanese Patent Application No. 2008-179882, Japanese Patent Application No. 2008-181052, Japanese Patent Application No. 2008-182325, Japanese Patent Application No. 2008-186895, Japanese Patent Application No. 2008-188165, Japanese Patent Application No. 2008. No. -202676, Japanese Patent Application No. 2008-203842, Japanese Patent Application No. 2008-206632, Japanese Patent Application No. 2008-209497, Japanese Patent Application No. 2008-214912, Japanese Patent Application No. 2008-229434, Japanese Patent Application No. 2008-231842, Japanese Patent Application No. 2008- No. 243690, Japanese Patent Application No. 2008-244501, Japanese Patent Application No. 2008-249719, Japanese Patent Application No. 2008-256006, Japanese Patent Application No. 2008-266020, Japanese Patent Application No. 2008-269294, Japanese Patent Application No. 2008-282825, Japanese Patent Application No. 2008-288411 No., Japanese Patent Application 2008- No. 90630, Japanese Patent Application No. 2008-295174, Japanese Patent Application No. 2008-290991, Japanese Patent Application No. 2008-305951, Japanese Patent Application No. 2008-319210, Japanese Patent Application No. 2008-327045, Japanese Patent Application No. 2009-011656, Japanese Patent Application No. 2009-011656, No. 2009-013856, No. 2009-015027, No. 2009-016249, No. 2009-021161, No. 2009-022247, No. 2009-023345, No. 2009-024512, No. 2009-024512 2009-025684, Japanese Patent Application No. 2009-026989, Japanese Patent Application No. 2009-028105, Japanese Patent Application No. 2009-028150, Japanese Patent Application No. 2009-028253, Japanese Patent Application No. 2009-029406, Japanese Patent Application No. 2009-029471, Japanese Patent Application No. 2009 -029539, Japanese Patent Application No. 20 No. 09-030759, Japanese Patent Application No. 2009-030865, Japanese Patent Application No. 2009-030942, Japanese Patent Application No. 2009-032264, Japanese Patent Application No. 2009-032312, and Japanese Patent Application No. 2009-032378.

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

理論最良エンジンから実験最良エンジンに順次移行して、重力太陽熱発電や重力太陽エンジンにより、太陽熱や熱製造装置の熱ポンプにより温熱と冷熱の製造量を無限大に近付け、限りある石油資源等はCO2にせず大切な資源として必要最小限の使用とし、子子孫孫まで残すと共に地球温暖化防止して、旱魃や海面上昇や台風や季節風の巨大化を阻止し、海底に冷熱の酸素や窒素等の栄養分を供給して、植物プランクトンや海草類やサンゴや魚類等を増殖人類の食物を増大し、既存世界の10倍発電量以上として、既存世界の火力原子力発電所を全廃重力発電にし、重力発電の蓄電池駆動各種自動車類全盛や、蓄電池駆動各種船舶類全盛や電気駆動全面電化住宅全盛や工場電化全盛や温熱と冷熱利用全盛にして、海水温度上昇0やCO2排気0や燃料費0で発電し、地球温暖化防止して人類絶滅を先送りして、重力太陽熱タービン等で電気及び温熱と冷熱の製造量を無限大に近付け、温熱や冷熱の需要全部に対応します。 From the theoretical best engine to the experimental best engine one after another, gravitational solar power generation and gravitational solar engine approach the infinite amount of hot and cold production by solar heat and heat pump of heat production equipment, limited oil resources are CO2 Instead, we use it as a minimum resource as an important resource, leave it to its descendants and prevent global warming, prevent drought, sea level rise, typhoons and seasonal winds, and cool seawater such as oxygen and nitrogen Supply nutrients, increase phytoplankton, seaweeds, corals, fish, etc., increase the food of humankind, make the existing world's thermal nuclear power plants more than 10 times the amount of power generation in the existing world, make gravity power generation abolished, Various types of battery-powered automobiles, various types of battery-powered ships, electric-powered fully electrified houses, factory electrified primes, and warm and cold-use primes, with no rise in seawater temperature and CO2 emissions Power generation at zero or fuel costs, prevent global warming, postpone the extinction of humanity, approach the infinite amount of electricity and thermal and cold production with gravitational solar turbines, etc., and respond to all demand for thermal and cold The

CO2排気僅少燃料消費僅少の竪型全動翼液体金属重力太陽熱タービン8G2種類駆動と、重力のみ使用の竪型全動翼液体金属重力タービン8G1種類駆動の、液体金属重力太陽熱エンジン回転出力発生にし、同一燃料量既存エンジンの100倍回転出力+噴射推進出力狙いとして、3種類の竪型全動翼液体金属重力太陽熱タービン8G駆動の液体金属重力加速度エンジンとし、燃焼ガス質量を排気の過程で、空気抽出器51の排出燃焼ガス圧力を上昇燃料噴射燃焼噴射推進出力発生にして、同一燃料量既存プロペラ飛行機やジェットエンジンの10倍回転出力や噴射推進出力にし、燃料消費僅少として既存世界の各種船舶類や各種飛行機類の10倍速度等を狙う効果があります。   CO2 exhaust gas fuel consumption small fuel consumption type all-blade liquid metal gravity solar heat turbine 8G2 type drive and vertical type full-rotation blade liquid metal gravity turbine 8G1 type drive using only gravity to generate liquid metal gravity solar engine rotation output, Three types of vertical all-blade liquid metal gravity solar turbine 8G driven liquid metal gravity acceleration engine with the same fuel amount aiming for 100 times rotation output + injection propulsion output of the existing engine. The exhaust combustion gas pressure of the extractor 51 is increased to generate fuel injection combustion injection propulsion output, and the same fuel amount is set to 10 times rotation output and injection propulsion output of existing propeller airplanes and jet engines. And 10 times the speed of various airplanes.

竪型全動翼液体金属重力タービン8Gの説明図(実施例1)Explanatory drawing of a vertical all blade liquid metal gravity turbine 8G (Example 1) 竪型全動翼液体金属重力熱量タービン8Gの説明図(実施例2)Explanatory drawing of a vertical all blade liquid metal gravity calorie turbine 8G (Example 2) 竪型全動翼液体金属重力質量タービン8Gの説明図(実施例3)Explanatory drawing of vertical all blade liquid metal gravity mass turbine 8G (Example 3) 液体金属重力太陽熱飛行機39Bの説明図(実施例4)Illustration of Liquid Metal Gravity Solar Airplane 39B (Example 4) 液体金属重力太陽熱ヘリコプター39Cの説明図(実施例5)Explanatory drawing of liquid metal gravity solar thermal helicopter 39C (Example 5) 液体金属重力太陽熱船舶39Dの説明図(実施例6)Explanatory drawing of liquid metal gravity solar power ship 39D (Example 6)

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

図1の竪型全動翼液体金属重力タービン8G等、船舶類や飛行機類を駆動の場合使用落差が限定されるため、3種類タービン8Gを夫々2台使用する6台使用等で重力活用を増大限り無く大出力にし、液体金属等による保温装置を具備した竪型全動翼液体金属重力タービン8Gを断熱保温して、タービン外箱77a内に1〜10段等垂直に設けて、重量を支える推力軸受80aや軸受80を設け、竪型全動翼液体金属重力タービン8G駆動の過程では、タービン外箱内保温装置付増大球上昇装置2Fにより、圧縮熱回収器2Cで温度管理された合金を含む液体金属2Eを最上部に上昇保存し、出力増大手段2Dを開放出力増大球2E兼衝撃低減手段2Gの液体金属2Eを、液体金属噴射ポンプ6Lで400MPa等噴射して、竪型全動翼液体金属重力タービン8Gを駆動し、保温タービン間に横軸1hを設け、タービン外箱77a外で発電機1や熱製造装置の熱ポンプ1G多数を駆動して、タービン8Gの回転方向を交互にして振動や騒音を相殺し、振動や騒音を僅少にして太陽熱を種に熱ポンプ1Gと空気熱交換器2Xで無限大に近い温熱や冷熱を製造して、燃焼ガス熱量出力+燃焼ガス質量出力で利用する実験をし、合体機関噴射部78K又はウォータージェット79M駆動噴射推進出力を発生して、重力で熱製造の地球温暖化防止エンジンにします。   Since the drop in use is limited when driving ships and airplanes, such as the vertical all-blade liquid metal gravity turbine 8G in FIG. 1, gravity utilization is possible by using 6 units each using 2 types of turbines 8G. The vertical all-blade liquid metal gravity turbine 8G, which has a large output without any increase and is equipped with a heat retaining device made of liquid metal or the like, is insulated and heat-insulated, and is vertically provided in the turbine outer box 77a by 1 to 10 stages, etc. An alloy which is provided with a thrust bearing 80a and a bearing 80 to be supported, and is temperature-controlled by the compression heat recovery unit 2C by the increasing ball rising device 2F with a heat retaining device in the turbine outer box in the process of driving the saddle type full-blade liquid metal gravity turbine 8G The liquid metal 2E containing is raised and stored at the top, the output increasing means 2D is opened and the output power increasing sphere 2E and the impact reducing means 2G are injected by the liquid metal injection pump 6L at 400 MPa, etc. Wing liquid The gravity turbine 8G is driven, the horizontal axis 1h is provided between the heat retaining turbines, the generator 1 and the heat pumps 1G of the heat production apparatus are driven outside the turbine outer box 77a, and the rotation direction of the turbine 8G is alternated. Vibration and noise are offset, vibration and noise are reduced, solar heat is used as seeds, and heat and cold heat that is close to infinity is produced by heat pump 1G and air heat exchanger 2X, with combustion gas heat output + combustion gas mass output We will conduct experiments to use, generate the combined engine injection part 78K or water jet 79M drive propulsion output, and make it a global warming prevention engine of heat production by gravity.

竪型全動翼液体金属重力タービン8Gには、重量を支える推力軸受80aや軸受80や液体金属を加速する重力加速部1gを設け、重力加速部1gには発電機1や熱ポンプ1Gを駆動する横軸1h貫通穴を具備して、発電機1や熱ポンプ1Gを断熱保温したタービン外箱77aの外で駆動し、複数〜多数の熱ポンプ1Gで太陽光加熱空気を圧縮600〜1200度にして空気熱交換器2Xで吸入空気を加熱して、熱製造の過程で300度前後吸入空気+太陽光加熱熱回収後空気を圧縮1200度等の圧縮空気に複数回し、最終圧縮熱回収の過程で燃料噴射燃焼限り無く高圧燃焼熱交換冷却熱回収を可能して、例えば200度前後24〜400MPa燃焼ガス質量+500度前後24〜400MPa過熱蒸気50燃焼ガス熱量に分割保存し、別の質量タービン+熱量タービンを駆動や噴射推進に使用して、竪型全動翼液体金属重力タービン8Gは、合金を含む液体金属噴射ポンプ6Lの噴射速度を重力加速度加速で駆動して、真空中の重力加速度により液体金属の最高速度とし、大気圧同速度同容積仕事率kg重m/秒を既存蒸気タービンの1〜2.3万倍にして、既存タービン翼断面積の2〜26倍断面積にしたタービン翼断面4Xに噴射し、強度増大大型翼面の転がり接触回転出力発生として、排気の過程では空気抽出器51で真空にし、熱量消費0液体金属の重力のみで駆動する地球温暖化防止エンジンにします。 The vertical type moving blade liquid metal gravity turbine 8G is provided with a thrust bearing 80a supporting the weight, a bearing 80 and a gravity acceleration portion 1g for accelerating the liquid metal, and the gravity acceleration portion 1g is driven with a generator 1 and a heat pump 1G. The generator 1 and the heat pump 1G are driven outside the turbine outer box 77a which is insulated and insulated, and the solar heating air is compressed 600 to 1200 degrees with a plurality of heat pumps 1G. Then, the intake air is heated by the air heat exchanger 2X, and after the heat recovery process, the intake air is heated to about 300 degrees and the solar heat is recovered multiple times to the compressed air of 1200 degrees for the final compression heat recovery. High-pressure combustion heat exchange cooling heat recovery is possible in the process as long as fuel injection combustion, for example, it is divided and stored into 24-200 MPa combustion gas mass around 200 degrees + 24-400 MPa superheated steam 50 combustion gas heat quantity around 500 degrees, Using a mass turbine + heat quantity turbine for driving and propulsion propulsion, the vertical all blade liquid metal gravity turbine 8G drives the injection speed of the liquid metal injection pump 6L including the alloy with acceleration of gravity acceleration, The maximum speed of liquid metal is achieved by gravitational acceleration, the atmospheric pressure, the same speed, and the same volumetric power, kg weight m / sec, are 1 to 23,000 times that of the existing steam turbine, and the cross-sectional area is 2 to 26 times that of the existing turbine blade. Injecting into the turbine blade cross section 4X, increasing the strength of the large blade surface to generate rolling contact rotation output, in the exhaust process, the air extractor 51 is evacuated, and heat consumption is 0. Prevention of global warming driven only by liquid metal gravity To the engine.

図2燃焼ガス熱量駆動の竪型全動翼液体金属重力熱量タービン8G等、船舶類や飛行機類を駆動の場合使用落差が限定されるため、3種類タービン8Gを夫々2台使用する6台使用等で重力活用を増大限り無く大出力にし、液体金属等による保温装置を具備した竪型全動翼液体金属重力熱量タービン8Gを断熱保温して、タービン外箱77a内に1〜10段等垂直に設けて、重量を支える推力軸受80aや軸受80を設け、竪型全動翼液体金属重力熱量タービン8G駆動の過程では、タービン外箱内保温装置付増大球上昇装置2Fにより、圧縮熱回収器2Cで温度管理された合金を含む液体金属2Eを最上部に上昇保存し、出力増大手段2D開放過熱蒸気50を24〜400MPa噴射して、出力増大球2E兼衝撃低減手段2Gの液体金属2Eを、液体金属噴射ポンプ6Lで400MPa等噴射過熱蒸気加速し、竪型全動翼液体金属重力熱量タービン8Gを駆動回転出力を発生して、保温タービン間に横軸1hを設け、タービン外箱77a外で発電機1や熱製造装置の熱ポンプ1G多数を駆動し、タービン8Gの回転方向を交互にして振動や騒音を相殺して、振動や騒音を僅少にして太陽熱を種に熱ポンプ1Gと空気熱交換器2Xで無限大に近い温熱や冷熱を製造し、温熱の燃焼ガス熱量出力を利用して、合体機関噴射部78K又はウォータージェット79M駆動噴射推進出力を発生し、回転出力+噴射推進出力の地球温暖化防止エンジンにします。 Fig. 2 Combustion gas calorie-driven vertical all-blade liquid metal gravity calorie turbine 8G, etc. When driving ships and airplanes, the drop in use is limited, so 6 types of 3 types of turbines 8G are used. The vertical type moving blade liquid metal gravity calorie turbine 8G equipped with a heat retaining device made of liquid metal, etc. is insulated and heat-insulated, and the vertical outside of the turbine outer box 77a is vertical, such as 1 to 10 stages. The thrust bearing 80a and the bearing 80 that support the weight are provided, and in the process of driving the vertical all blade liquid metal gravity heat quantity turbine 8G, a compression heat recovery device is provided by an increase ball rising device 2F with a heat retaining device in the turbine outer box. The liquid metal 2E containing the alloy whose temperature is controlled at 2C is raised and stored at the top, and the power increasing means 2D is released by superheated steam 50 to 24 to 400 MPa, and the liquid metal 2 of the power increasing sphere 2E and impact reducing means 2G Is accelerated by superheated steam such as 400 MPa with a liquid metal injection pump 6L, drives a vertical all-blade liquid metal gravity heat quantity turbine 8G to generate rotational output, and a horizontal axis 1h is provided between the heat retaining turbines. The generator 1 and the heat pump 1G of the heat production apparatus are driven outside, and the rotation direction of the turbine 8G is alternated to cancel vibrations and noises. Air heat exchanger 2X produces near-infinity hot and cold heat, and uses the combustion gas calorific value output of hot heat to generate combined engine injection unit 78K or water jet 79M drive injection propulsion output, rotation output + injection propulsion The output is a global warming prevention engine.

竪型全動翼液体金属重力熱量タービン8Gには、重量を支える推力軸受80aや軸受80や液体金属を加速する重力加速部1gを設け、重力加速部1gには発電機1や熱ポンプ1Gを駆動する横軸1h貫通穴を具備して、発電機1や熱ポンプ1Gを断熱保温したタービン外箱77aの外で駆動し、複数の熱ポンプ1Gで太陽光加熱空気を圧縮600〜1200度にして空気熱交換器2Xで吸入空気を加熱して、図1と同様に熱製造して例えば200度前後24〜400MPa燃焼ガス質量+500度前後24〜400MPa過熱蒸気50燃焼ガス熱量に分割保存し、合金を含む液体金属噴射ポンプ6Lの噴射速度を24〜400MPa過熱蒸気50加速して、竪型全動翼液体金属重力熱量タービン8Gを駆動し、重力加速度追加により液体金属の最高速度として、大気圧同速度同容積仕事率kg重m/秒を既存蒸気タービンの1〜2.3万倍にし、既存タービン翼断面積の2〜26倍断面積にしたタービン翼断面4Xに噴射して、強度増大大型翼面の転がり接触回転出力発生とし、燃料消費量を僅少にして、排気の過程で過熱蒸気50を噴射して噴射推進出力を発生する、大出力の地球温暖化防止エンジンにします。 The vertical all-blade liquid metal gravity heat turbine 8G is provided with a thrust bearing 80a supporting the weight, a bearing 80 and a gravity acceleration unit 1g for accelerating the liquid metal, and the gravity acceleration unit 1g is provided with a generator 1 and a heat pump 1G. It has a horizontal shaft 1h through-hole to drive, and the generator 1 and heat pump 1G are driven outside the heat-insulated turbine outer box 77a, and the solar heat air is compressed to 600 to 1200 degrees by a plurality of heat pumps 1G. The intake air is heated by the air heat exchanger 2X, and heat production is performed in the same manner as in FIG. 1, for example, divided and stored into a mass of 24-200 MPa combustion gas mass of around 200 degrees + 24-400 MPa superheated steam 50 combustion gas heat quantity of around 500 degrees, The injection speed of the liquid metal injection pump 6L containing the alloy is accelerated by 24 to 400 MPa superheated steam 50 to drive the vertical all-blade liquid metal gravity calorie turbine 8G, and liquid gold is added by adding gravity acceleration. As the maximum speed of the turbine, the turbine blade cross section 4X in which the atmospheric pressure, the same speed, and the same volumetric power, kg weight m / second, is 1 to 23,000 times that of the existing steam turbine, and the cross sectional area is 2 to 26 times that of the existing turbine blade. High-power global warming that generates rolling contact rotation output of large blade surface with increased strength, generates less fuel consumption, and injects superheated steam 50 during the exhaust process to generate injection propulsion output To prevent engine.

図3燃焼ガス質量駆動の竪型全動翼液体金属重力質量タービン8G等、船舶類や飛行機類を駆動の場合使用落差が限定されるため、3種類タービン8Gを夫々2台使用する6台使用等で重力活用を増大限り無く大出力にし、液体金属等による保温装置を具備した竪型全動翼液体金属重力質量タービン8Gを断熱保温して、タービン外箱77a内に1〜10段等垂直に設けて、重量を支える推力軸受80aや軸受80を設け、竪型全動翼液体金属重力質量タービン8G駆動の過程では、タービン外箱内保温装置付増大球上昇装置2Fにより、圧縮熱回収器2Cで温度管理された合金を含む液体金属2Eを最上部に上昇保存し、出力増大手段2D開放燃焼ガス49を24〜400MPa噴射して、出力増大球2E兼衝撃低減手段2Gの液体金属2Eを、液体金属噴射ポンプ6Lで400MPa等噴射燃焼ガス加速し、竪型全動翼液体金属重力質量タービン8Gを駆動回転出力を発生して、保温タービン間に横軸1hを設け、タービン外箱77a外で発電機1や熱製造装置の熱ポンプ1G多数を駆動し、タービン8Gの回転方向を交互にして振動や騒音を相殺して、振動や騒音を僅少にして太陽熱を種に熱ポンプ1Gと空気熱交換器2Xで無限大に近い温熱や冷熱を製造し、冷熱の燃焼ガス質量出力を利用して、合体機関噴射部78K又はウォータージェット79M駆動噴射推進出力を発生し、地球温暖化防止エンジンにします。 Fig. 3 Combustion gas mass-driven vertical all-blade liquid metal gravity mass turbine 8G, etc. When driving ships and airplanes, the drop in use is limited, so 6 types of 3 types of turbines 8G are used. The vertical type moving blade liquid metal gravity mass turbine 8G equipped with a heat retaining device made of liquid metal or the like is insulated and heat-insulated, and the vertical use of 1 to 10 stages or the like in the turbine outer box 77a is achieved. The thrust bearing 80a and the bearing 80 that support the weight are provided, and in the process of driving the vertical all blade liquid metal gravity mass turbine 8G, a compression heat recovery device is provided by the increasing ball rising device 2F with a heat retaining device in the turbine outer box. The liquid metal 2E containing the alloy whose temperature is controlled at 2C is raised and stored at the top, and the power increasing means 2D is injected with the open combustion gas 49 by 24 to 400 MPa, and the liquid metal 2 of the power increasing sphere 2E and impact reducing means 2G Is accelerated by a liquid metal injection pump 6L, such as 400MPa, and a vertical all-blade liquid metal gravity mass turbine 8G is driven to generate rotational output, and a horizontal axis 1h is provided between the heat retaining turbines. The generator 1 and the heat pump 1G of the heat production apparatus are driven outside, and the rotation direction of the turbine 8G is alternated to cancel vibrations and noises. Air heat exchanger 2X produces near-infinite warmth and cold, and uses the combustion gas mass output of cold heat to generate combined engine injection unit 78K or water jet 79M drive injection propulsion output to prevent global warming To.

竪型全動翼液体金属重力質量タービン8Gには、重量を支える推力軸受80aや軸受80や液体金属を加速する重力加速部1gを設け、重力加速部1gには発電機1や熱ポンプ1Gを駆動する横軸1h貫通穴を具備して、発電機1や熱ポンプ1Gを断熱保温したタービン外箱77aの外で駆動し、複数の熱ポンプ1Gで太陽光加熱空気を圧縮600〜1200度にして空気熱交換器2Xで吸入空気を加熱して、図1と同様に熱製造して例えば200度前後24〜400MPa燃焼ガス質量+500度前後24〜400MPa過熱蒸気50燃焼ガス熱量に分割保存し、合金を含む液体金属噴射ポンプ6Lの噴射速度を24〜400MPa燃焼ガス49質量加速して、竪型全動翼液体金属重力質量タービン8Gを駆動し、重力加速度追加により液体金属の最高速度として、大気圧同速度同容積仕事率kg重m/秒を既存蒸気タービンの1〜2.3万倍にし、既存タービン翼断面積の2〜26倍断面積にしたタービン翼断面4Xに噴射して、強度増大大型翼面の転がり接触回転出力発生とし、排気の過程で膨大な酸素残量の排気燃焼ガス49に燃料噴射燃焼噴射推進出力を増大可能にする、地球温暖化防止大出力エンジンにします。 The vertical all blade liquid metal gravity mass turbine 8G is provided with a thrust bearing 80a supporting the weight, a bearing 80 and a gravity acceleration unit 1g for accelerating the liquid metal, and the gravity acceleration unit 1g is provided with a generator 1 and a heat pump 1G. It has a horizontal shaft 1h through-hole to drive, and the generator 1 and heat pump 1G are driven outside the heat-insulated turbine outer box 77a, and the solar heat air is compressed to 600 to 1200 degrees by a plurality of heat pumps 1G. The intake air is heated by the air heat exchanger 2X, and heat production is performed in the same manner as in FIG. 1, for example, divided and stored into a mass of 24-200 MPa combustion gas mass of around 200 degrees + 24-400 MPa superheated steam 50 combustion gas heat quantity of around 500 degrees, The injection speed of the liquid metal injection pump 6L containing an alloy is accelerated by 49 masses of 24-400 MPa combustion gas to drive the vertical all-blade liquid metal gravity mass turbine 8G. Turbine blade cross section with the metal maximum speed of 1 to 23,000 times that of the existing steam turbine, and 2 to 26 times that of the existing turbine blade. Injecting into 4X to generate rolling contact rotation output of a large blade surface with increased strength, enabling the fuel injection combustion injection propulsion output to be increased to the exhaust combustion gas 49 with a large amount of oxygen remaining in the exhaust process, preventing global warming Make it a high output engine.

図4の各種液体金属重力太陽熱飛行機39B回転出力発生では、重力使用が限定されるため飛行胴38a垂直翼38dを一体として、図1〜図3の3種類6台等竪型全動翼液体金属重力タービン8G台数選択使用で落差を増大し、空気吸入口28Bより空気28aを吸入の過程で、長レンズ2d熱吸収材2Bで構成の吸入空気路28Aで太陽熱加熱の空気28aを吸入して、熱ポンプ1Gで圧縮600〜1200度にし、空気熱交換器2Xの別空気28aで熱回収熱ポンプ1Gで圧縮熱回収を繰り返す熱製造として、繰り返し圧縮600〜1200度にして熱回収を繰り返し200〜300度等に冷却し、最終熱回収の過程で必要があれば燃料噴射燃焼限り無く高圧燃焼熱交換冷却燃焼して、圧縮熱回収器2C水熱交換器2Yで熱交換冷却して、500度前後24〜400MPa過熱蒸気50燃焼ガス熱量+200度前後24〜400MPa燃焼ガス質量に分割保存し、液体金属噴射ポンプ6Lにより400MPa等で噴射して、燃焼ガス熱量+燃焼ガス質量+重力のみで夫々液体金属を加速重力や真空で追加加速し、3種類の竪型全動翼液体金属重力タービン8Gを駆動夫々回転出力を発生して、夫々でプロペラ7Aを回転駆動します。   In the generation of rotational output of various liquid metal gravity solar thermal planes 39B in FIG. 4, the use of gravity is limited. The head is increased by selecting and using the number of gravity turbines 8G, and in the process of sucking the air 28a from the air suction port 28B, the solar heating air 28a is sucked in the suction air passage 28A constituted by the long lens 2d heat absorbing material 2B, As heat production in which compression is performed at 600 to 1200 degrees with the heat pump 1G and compression heat recovery is repeated with the heat recovery heat pump 1G with the separate air 28a of the air heat exchanger 2X, the heat recovery is repeatedly performed at 600 to 1200 degrees with repeated heat recovery 200 to 200 degrees. Cool to 300 degrees, etc., if necessary in the process of final heat recovery, heat injection cooling with high-pressure combustion without limitation as long as fuel injection combustion, and heat exchange cooling with compression heat recovery unit 2C water heat exchanger 2Y 24 to 400MPa superheated steam 50 to around 500 degrees, combustion gas heat quantity + about 200 degrees to 24 to 400MPa combustion gas mass, inject at 400MPa etc. by liquid metal injection pump 6L, combustion gas heat quantity + combustion gas mass + gravity only The liquid metal is further accelerated by gravity and vacuum, respectively, and the three types of saddle-type all-blade liquid metal gravity turbine 8G are driven to generate rotational outputs, respectively, and the propeller 7A is driven to rotate.

3種類の竪型全動翼液体金属重力タービン8G・熱ポンプ1G・圧縮熱回収器2C・空気熱交換機2X・水熱交換器2Yを、横並び又は立て並びとして、用途に合わせた台数を夫々1〜10段に設けて、用途に合わせて落差を増大した出力増大とし、衝撃低減手段2G兼出力増大球2Eの液体金属を液体金属噴射ポンプ6Lで噴射して、分割保存した燃焼ガス熱量+燃焼ガス質量や真空等で加速して重力で追加加速し、3種類の竪型全動翼液体金属重力タービン8Gタービン翼断面4Xを既存蒸気タービンの2〜25倍にして、タービン翼8cに噴射転がり接触駆動回転出力を発生し、大気圧同速度同容積仕事率kg重m/秒を既存蒸気タービン出力の1〜2.3万倍回転出力にして、排気の過程で酸素残量の多い大量の燃焼ガスに燃料噴射燃焼合体機関噴射部78Kより噴射し、噴射の過程で排気燃焼ガス49を吸引噴射竪型全動翼液体金属重力質量タービンの出力を増大して、同時に燃料噴射燃焼の既存アフターバーナーを選択可能にし、噴射推進出力増大宇宙飛行を狙うプロペラ飛行機とします。 Three types of vertical all-blade liquid metal gravity turbine 8G, heat pump 1G, compression heat recovery unit 2C, air heat exchanger 2X, and water heat exchanger 2Y are arranged side by side or side by side, and the number according to the application is 1 each. -10 stages to increase the output according to the application and increase the output, the liquid metal of the impact reducing means 2G and output increasing sphere 2E is injected by the liquid metal injection pump 6L, divided and stored combustion gas heat amount + combustion Accelerate with gas mass, vacuum, etc. and further accelerate with gravity, make 3 types of vertical all-blade liquid metal gravity turbine 8G turbine blade cross section 4X 2-25 times the existing steam turbine, and inject and roll on turbine blade 8c A contact drive rotation output is generated, and the atmospheric pressure, the same speed, the same volumetric power, kg weight m / second, is set to 1 to 23,000 times the output of the existing steam turbine, and a large amount of oxygen remains in the exhaust process. Fuel injection into combustion gas Injecting from the combined engine injection section 78K, and increasing the output of the suction injection saddle type all-blade liquid metal gravity mass turbine in the process of injection, and at the same time, the existing afterburner of fuel injection combustion can be selected, Propeller airplane aiming at space flight with increased jet propulsion output.

図5各種液体金属重力太陽熱ヘリコプター39C回転出力発生では、重力使用が限定されるため、操縦室10b・制御室10c・客室10d・貨物室10eをタービン設計と合致して、図1図2図3の3種類竪型全動翼液体金属重力タービン8G台数選択使用で落差を増大し、進行方向前方の空気吸入口28Bより空気28aを吸入の過程で、長レンズ2d熱吸収材2Bで構成の吸入空気路28Aで太陽熱加熱の空気28aを吸入して、熱ポンプ1Gで圧縮600〜1200度にし、空気熱交換器2Xの別空気28aで熱回収300〜500度にして、吸入熱ポンプ1Gで圧縮熱回収を繰り返す熱製造+圧縮空気大量製造とし、繰り返し圧縮600〜1200度にして熱回収を繰り返し200〜300度等に冷却して、最終熱回収の過程で必要があれば燃料噴射燃焼限り無く高圧燃焼熱交換冷却燃焼し、圧縮熱回収器2C水熱交換器2Yで熱交換冷却して、500度前後24〜400MPa過熱蒸気50圧縮空気熱量+200度前後24〜400MPa圧縮空気質量に分割保存し、液体金属噴射ポンプ6Lにより400MPa等で噴射して、圧縮空気熱量+圧縮空気質量+重力で夫々液体金属を加速重力や真空で追加加速し、3種類の竪型全動翼液体金属重力タービン8Gを駆動夫々で回転翼7Bを回転駆動して垂直離着陸します。   5 Since various liquid metal gravity solar helicopters 39C generate rotational output, the use of gravity is limited. Therefore, the cockpit 10b, the control room 10c, the cabin 10d, and the cargo compartment 10e are matched with the turbine design, and FIG. In the process of sucking the air 28a from the air suction port 28B forward in the traveling direction, the suction of the long lens 2d is composed of the heat absorbing material 2B. The solar heating air 28a is sucked in the air passage 28A, compressed to 600 to 1200 degrees by the heat pump 1G, heat recovered to 300 to 500 degrees by another air 28a of the air heat exchanger 2X, and compressed by the suction heat pump 1G. Heat production with repeated heat recovery + mass production of compressed air, repeated compression at 600 to 1200 degrees, heat recovery repeated at 200 to 300 degrees, etc. If there is, the high pressure combustion heat exchange cooling combustion without limit as long as the fuel injection combustion, heat exchange cooling in the compression heat recovery unit 2C water heat exchanger 2Y, around 500 degrees 24-400MPa superheated steam 50 compressed air heat amount + around 200 degrees 24-24 Divided and stored in 400MPa compressed air mass, jetted at 400MPa etc. by liquid metal injection pump 6L, and accelerated acceleration of liquid metal by compressed air calorie + compressed air mass + gravity respectively by gravity and vacuum, 3 types of saddle type The rotor blades 7B are driven to rotate and take off and land by driving all the rotor blades liquid metal gravity turbine 8G.

3種類の竪型全動翼液体金属重力タービン8G・熱ポンプ1G・圧縮熱回収器2C・空気熱交換機2X・水熱交換器2Yを、横並び又は立て並びとして、用途に合わせた台数を夫々1〜10段に設けて、用途に合わせて落差を増大した出力増大とし、衝撃低減手段2G兼出力増大球2Eの液体金属を液体金属噴射ポンプ6Lで噴射して、分割保存した圧縮空気熱量+圧縮空気質量+真空で加速して重力で追加加速し、3種類の竪型全動翼液体金属重力タービン8Gタービン翼断面4Xを既存蒸気タービンの2〜25倍にして、タービン翼8cに噴射転がり接触駆動回転出力を発生し、大気圧同速度同容積仕事率kg重m/秒を既存蒸気タービン出力の1〜2.3万倍回転出力にして、夫々の回転出力により夫々の回転翼7Bを回転駆動して、既存大型ヘリコプターと同様に飛行し、排気の過程で200度前後24〜400MPa圧縮空気28aに燃料噴射燃焼、合体機関噴射部78Kより噴射し、噴射の過程で排気圧縮空気28aを吸引噴射竪型全動翼液体金属重力質量タービンの出力を増大して、同時に燃料噴射燃焼の既存アフターバーナーを選択可能にし、噴射推進出力を増大して、宇宙を飛行可能にするヘリコプターとします。 Three types of vertical all-blade liquid metal gravity turbine 8G, heat pump 1G, compression heat recovery unit 2C, air heat exchanger 2X, and water heat exchanger 2Y are arranged side by side or side by side, and the number according to the application is 1 each. -10 stages to increase the output according to the application and increase the output, and the liquid metal of the impact reducing means 2G and output increasing sphere 2E is injected by the liquid metal injection pump 6L, and divided and stored compressed air heat amount + compression Accelerate with air mass + vacuum and further accelerate with gravity, make 3 types of vertical rotor blades liquid metal gravity turbine 8G turbine blade cross section 4X 2-25 times that of existing steam turbine, and make rolling contact with turbine blade 8c Drive rotation output is generated, and the atmospheric pressure, the same speed, and the same volumetric power, kg weight m / sec, are set to 1 to 23,000 times the rotation output of the existing steam turbine output, and each rotary blade 7B is rotated by each rotation output. Drive It flies in the same way as an existing large helicopter, fuel injection combustion to around 200 degrees 24 to 400 MPa compressed air 28a in the exhaust process, and is injected from the combined engine injection unit 78K, and the exhaust compressed air 28a is sucked into the suction injection rod type all in the injection process The helicopter will increase the power of the moving blade liquid metal gravity mass turbine and at the same time select the existing afterburner for fuel injection combustion, increase the propulsion propulsion power and enable the space to fly.

図6各種液体金属重力太陽熱船舶39D回転出力発生では、重力使用が限定されるため、操縦室10b・制御室10c・客室10d・貨物室10eをタービン設計と合致して、図1図2図3の3種類竪型全動翼液体金属重力タービン8G台数選択使用で落差を増大し、進行方向前方の空気吸入口28Bより空気28aを吸入の過程で、長レンズ2d熱吸収材2Bで構成の吸入空気路28Aで太陽熱加熱の空気28aを吸入して、熱ポンプ1Gで圧縮600〜1200度にし、空気熱交換器2Xの別空気28aで熱回収300〜500度にして、吸入熱ポンプ1Gで圧縮熱回収を繰り返す熱製造+圧縮空気大量製造とし、繰り返し圧縮600〜1200度にして熱回収を繰り返し200〜300度等に冷却して、最終熱回収の過程で必要があれば燃料噴射燃焼限り無く高圧燃焼熱交換冷却燃焼し、圧縮熱回収器2C水熱交換器2Yで熱交換冷却して、500度前後24〜400MPa過熱蒸気50圧縮空気熱量+200度前後24〜400MPa圧縮空気質量に分割保存し、液体金属噴射ポンプ6Lにより400MPa等で噴射して、圧縮空気熱量+圧縮空気質量+重力で夫々液体金属を加速重力や真空で追加加速し、3種類の竪型全動翼液体金属重力タービン8Gを駆動夫々で回転翼7Bを回転駆動して垂直離着陸します。   6 Since the use of gravity is limited in the generation of rotational output of various liquid metal gravity solar thermal ships 39D, the cockpit 10b, the control room 10c, the cabin 10d, and the cargo compartment 10e are matched with the turbine design, and FIG. In the process of sucking the air 28a from the air suction port 28B forward in the traveling direction, the suction of the long lens 2d is composed of the heat absorbing material 2B. The solar heating air 28a is sucked in the air passage 28A, compressed to 600 to 1200 degrees by the heat pump 1G, heat recovered to 300 to 500 degrees by another air 28a of the air heat exchanger 2X, and compressed by the suction heat pump 1G. Heat production with repeated heat recovery + mass production of compressed air, repeated compression 600-1200 degrees, heat recovery repeated 200-300 degrees, etc., necessary in the final heat recovery process High pressure combustion heat exchange cooling combustion without limit to fuel injection combustion, heat exchange cooling with compression heat recovery unit 2C water heat exchanger 2Y, 24 to 400 MPa overheated steam around 500 degrees 50 calorific value of compressed air + around 200 degrees 24 to 400 MPa compressed air Divided and stored in mass, and injected by liquid metal injection pump 6L at 400MPa, etc., and compressed metal heat amount + compressed air mass + gravity, respectively, the liquid metal is further accelerated by gravity or vacuum, and three types of vertical all blades The liquid metal gravity turbine 8G is driven to rotate and rotate the rotor blades 7B to take off and land vertically.

3種類の竪型全動翼液体金属重力タービン8G・熱ポンプ1G・圧縮熱回収器2C・空気熱交換機2X・水熱交換器2Yを、横並び又は立て並びとして、用途に合わせた台数を夫々1〜10段に設けて、用途に合わせて落差を増大した出力増大とし、衝撃低減手段2G兼出力増大球2Eの液体金属を液体金属噴射ポンプ6Lで噴射して、分割保存した圧縮空気熱量+圧縮空気質量+真空で加速して重力で追加加速し、3種類の竪型全動翼液体金属重力タービン8Gタービン翼断面4Xを既存蒸気タービンの2〜25倍にして、タービン翼8cに噴射転がり接触駆動回転出力を発生し、大気圧同速度同容積仕事率kg重m/秒を既存蒸気タービン出力の1〜2.3万倍回転出力にして、夫々の回転出力により夫々のスクリュー7Cを回転駆動して、200度前後24〜400MPa圧縮空気28aをウォータージェット79Mに供給し、燃料噴射燃焼ウォータージェット79Mより噴射して、噴射の過程で竪型全動翼液体金属重力質量タービン8G排気の圧縮空気28aを吸引噴射し、竪型全動翼液体金属重力質量タービンの出力を増大して、同時に燃料噴射燃焼の既存アフターバーナーを選択可能にし、ウォータージェット79M噴射推進出力を増大して、既存船舶の10倍速度狙い実験結果最良エンジンに順次移行とします。 Three types of vertical all-blade liquid metal gravity turbine 8G, heat pump 1G, compression heat recovery unit 2C, air heat exchanger 2X, and water heat exchanger 2Y are arranged side by side or side by side, and the number according to the application is 1 each. -10 stages to increase the output according to the application and increase the output, and the liquid metal of the impact reducing means 2G and output increasing sphere 2E is injected by the liquid metal injection pump 6L, and divided and stored compressed air heat amount + compression Accelerate with air mass + vacuum and further accelerate with gravity, make 3 types of vertical rotor blades liquid metal gravity turbine 8G turbine blade cross section 4X 2-25 times that of existing steam turbine, and make rolling contact with turbine blade 8c Drive rotation output is generated, the atmospheric pressure, the same speed, and the same volumetric power, kg weight m / second, are set to 1 to 23,000 times the rotation output of the existing steam turbine, and each screw 7C is driven to rotate by each rotation output. Shi The compressed air 28a is supplied to the water jet 79M and is injected from the fuel-injection / combustion water jet 79M, and the compressed air 28a of the vertical all-blade liquid metal gravity mass turbine 8G exhaust is supplied during the injection. Suction injection, increasing the output of a vertical all-blade liquid metal gravity mass turbine, and at the same time select an existing afterburner for fuel injection combustion, increase the water jet 79M injection propulsion output, 10 times the speed of existing ships The aim of the experimental results will be shifted to the best engine.

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

Claims (5000)

タービン翼断面(4A)を2〜25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+燃料費僅少CO2排気僅少で回転出力噴射推進出力増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 2 to 25 times the turbine 3 types of liquid metal gravity solar heat engine + fuel cost a little CO2 exhaust a little rotation output injection propulsion output increase + increase ball lift device (2F) ascend and store the liquid metal Used + Compressed air calorie, acceleration by mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+燃料費僅少CO2排気僅少で回転出力噴射推進出力増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times the turbine 3 types of liquid metal gravity solar heat engine + fuel cost little CO2 exhaust little rotation output injection propulsion output increase + increase ball riser (2F) use the liquid metal ascend and store + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with turbine driven to accelerate liquid metal (2E). タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+燃料費僅少CO2排気僅少で回転出力噴射推進出力増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6 times turbine 3 types of liquid metal gravity solar heat engine + fuel cost is small CO2 exhaust is small and rotational power injection propulsion power increase + liquid ball rising device (2F) is used to save and store liquid metal + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engines with turbines driven by accelerated rolling contact with liquid metal. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+燃料費僅少CO2排気僅少で回転出力噴射推進出力増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times the turbine 3 types of liquid metal gravity solar heat engine + fuel cost little CO2 exhaust little rotation output injection propulsion output increase + increase ball rising device (2F) use and save the liquid metal + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engines with a liquid metal (2E) driven in rolling contact. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+燃料費僅少CO2排気僅少で回転出力噴射推進出力増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of liquid metal gravity solar heat engine + fuel cost little CO2 exhaust little rotation output injection propulsion output increase + increase ball rising device (2F) use and save liquid metal + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engines with liquid metal accelerated by compressed air calorie and mass. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate mercury downward + intake air flow path length lens Heating air (28a) aims at infinity with heat pump (1G) and air heat exchanger (2X) Increases combustion propulsion output with combustion gas calorie and mass + Increases and saves liquid metal with increasing ball lift device (2F) Used + Compressed air calorie, acceleration by mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10x turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + intake air flow path length lens Heating air (28a) aims at infinity with heat pump (1G) and air heat exchanger (2X) Increases combustion propulsion output with combustion gas calorie and mass + Increases and saves liquid metal with increasing ball lift device (2F) Used + Compressed air calorie, acceleration by mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal (2E). タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) with 11 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbine in alternate rotation direction to accelerate mercury downward + intake air flow path length lens Heating air (28a) aims at infinity with heat pump (1G) and air heat exchanger (2X) Increases combustion propulsion output with combustion gas calorie and mass + Increases and saves liquid metal with increasing ball lift device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Combined engine of various energy conservation cycles, which is a turbine that drives liquid metal with accelerated rolling contact. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12x turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate mercury downward + intake air flow path length lens Heating air (28a) aims at infinity with heat pump (1G) and air heat exchanger (2X) Increases combustion propulsion output with combustion gas calorie and mass + Increases and saves liquid metal with increasing ball lift device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) as turbine driven by accelerated rolling contact. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to drive mercury accelerated downward + intake air flow path length lens Heating air (28a) aims at infinity with heat pump (1G) and air heat exchanger (2X) Increases combustion propulsion output with combustion gas calorie and mass + Increases and saves liquid metal with increasing ball lift device (2F) Used + Accelerated by compressed air calorie, mass, and gravity + Various energy storage cycle coalescing engines that use a turbine that accelerates liquid metal with compressed air calorie and mass. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) with 14x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbine in alternating direction of rotation to accelerate mercury downward + intake air flow path length lens Heating air (28a) aims at infinity with heat pump (1G) and air heat exchanger (2X) Increases combustion propulsion output with combustion gas calorie and mass + Increases and saves liquid metal with increasing ball lift device (2F) Used + Compressed air calorie, acceleration by mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) with 15 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in rotation direction to accelerate mercury downward + intake air flow path length lens Heating air (28a) aims at infinity with heat pump (1G) and air heat exchanger (2X) Increases combustion propulsion output with combustion gas calorie and mass + Increases and saves liquid metal with increasing ball lift device (2F) Used + Compressed air calorie, acceleration by mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal (2E). タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16x turbine three-type driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbine in alternating rotation direction to drive mercury downward acceleration + intake air flow path length lens Heating air (28a) aims at infinity with heat pump (1G) and air heat exchanger (2X) Increases combustion propulsion output with combustion gas calorie and mass + Increases and saves liquid metal with increasing ball lift device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Combined engine of various energy conservation cycles, which is a turbine that drives liquid metal with accelerated rolling contact. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17-times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to drive mercury accelerated downward + intake air flow path length lens Heating air (28a) aims at infinity with heat pump (1G) and air heat exchanger (2X) Increases combustion propulsion output with combustion gas calorie and mass + Increases and saves liquid metal with increasing ball lift device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) as turbine driven by accelerated rolling contact. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) with 18 times turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbine in alternating direction of rotation to accelerate mercury downward + intake air flow path length lens Heating air (28a) aims at infinity with heat pump (1G) and air heat exchanger (2X) Increases combustion propulsion output with combustion gas calorie and mass + Increases and saves liquid metal with increasing ball lift device (2F) Used + Accelerated by compressed air calorie, mass, and gravity + Various energy storage cycle coalescing engines that use a turbine that accelerates liquid metal with compressed air calorie and mass. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19-times turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Driven by the driving force of injection + Increased sphere rising device (2F) to save and use liquid metal + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine driving liquid metal to accelerate. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 20 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal with the increasing ball lift device (2F) + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as a turbine that accelerates and drives the liquid metal (2E) . タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 21 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Driven by jet propulsion force + Increased and saved ball lift device (2F) uses and saves liquid metal + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine that drives liquid metal by accelerated rolling contact. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 22 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Various energy storage cycles using the turbine to drive the liquid metal (2E) in rolling contact Combined organization. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 23 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines in the rotational direction alternate to accelerate mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Save various energy as a turbine that drives the liquid metal with compressed air calorie and mass Cycle coalescence engine. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Driven by the driving force of injection + Increased sphere rising device (2F) to save and use liquid metal + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine driving liquid metal to accelerate. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Driven by the driving force of injection + Increased sphere rising device (2F) to save and use liquid metal + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine driving liquid metal to accelerate. タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) is doubled turbine 3 types of liquid metal gravity solar thermal engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Driven by the driving force of injection + Increased sphere rising device (2F) to save and use liquid metal + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine driving liquid metal to accelerate. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 3 times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Driven by the driving force of injection + Increased sphere rising device (2F) to save and use liquid metal + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine driving liquid metal to accelerate. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 4x turbine 3 types driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Driven by the driving force of injection + Increased sphere rising device (2F) to save and use liquid metal + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine driving liquid metal to accelerate. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive mercury downward acceleration + various ships Drives the jet propulsion force + Increases and stores the liquid metal with the increasing ball lift device (2F) + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as a turbine that accelerates and drives the liquid metal (2E) . タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive mercury downward acceleration + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal with the increasing ball lift device (2F) + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as a turbine that accelerates and drives the liquid metal (2E) . タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines in the rotational direction to accelerate the mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal with the increasing ball lift device (2F) + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as a turbine that accelerates and drives the liquid metal (2E) . タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal with the increasing ball lift device (2F) + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as a turbine that accelerates and drives the liquid metal (2E) . タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal with the increasing ball lift device (2F) + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as a turbine that accelerates and drives the liquid metal (2E) . タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Driven by jet propulsion force + Increased and saved ball lift device (2F) uses and saves liquid metal + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine that drives liquid metal by accelerated rolling contact. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 11 times the turbine three types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide a turbine with alternating rotation direction to accelerate the mercury downward + various ships as rotational force Driven by jet propulsion force + Increased and saved ball lift device (2F) uses and saves liquid metal + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine that drives liquid metal by accelerated rolling contact. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Driven by jet propulsion force + Increased and saved ball lift device (2F) uses and saves liquid metal + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine that drives liquid metal by accelerated rolling contact. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate mercury downward + various ships as rotational force Driven by jet propulsion force + Increased and saved ball lift device (2F) uses and saves liquid metal + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine that drives liquid metal by accelerated rolling contact. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in the rotating direction to drive acceleration of mercury downward + various ships as rotational force Driven by jet propulsion force + Increased and saved ball lift device (2F) uses and saves liquid metal + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine that drives liquid metal by accelerated rolling contact. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines in the rotational direction to accelerate the mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Various energy storage cycles using the turbine to drive the liquid metal (2E) in rolling contact Combined organization. タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 16 times turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to drive mercury accelerated downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Various energy storage cycles using the turbine to drive the liquid metal (2E) in rolling contact Combined organization. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Various energy storage cycles using the turbine to drive the liquid metal (2E) in rolling contact Combined organization. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotating direction to accelerate mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Various energy storage cycles using the turbine to drive the liquid metal (2E) in rolling contact Combined organization. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19-times turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Various energy storage cycles using the turbine to drive the liquid metal (2E) in rolling contact Combined organization. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 20 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Save various energy as a turbine that drives the liquid metal with compressed air calorie and mass Cycle coalescence engine. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 21 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Save various energy as a turbine that drives the liquid metal with compressed air calorie and mass Cycle coalescence engine. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 22 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Save various energy as a turbine that drives the liquid metal with compressed air calorie and mass Cycle coalescence engine. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 23 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines in the rotational direction alternate to accelerate mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Save various energy as a turbine that drives the liquid metal with compressed air calorie and mass Cycle coalescence engine. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Save various energy as a turbine that drives the liquid metal with compressed air calorie and mass Cycle coalescence engine. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量に分割保存した圧力等で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Various types of energy storage cycle coalescence engines, which are driven by injection propulsion force + are used to ascend and store liquid metal with an increasing ball lift device (2F). タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量に分割保存した圧力等で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) is doubled turbine 3 types of liquid metal gravity solar thermal engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Various types of energy storage cycle coalescence engines, which are driven by injection propulsion force + are used to ascend and store liquid metal with an increasing ball lift device (2F). タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量に分割保存した圧力等で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 3 times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Various types of energy storage cycle coalescence engines, which are driven by injection propulsion force + are used to ascend and store liquid metal with an increasing ball lift device (2F). タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量に分割保存した圧力等で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 4x turbine 3 types driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Various types of energy storage cycle coalescence engines, which are driven by injection propulsion force + are used to ascend and store liquid metal with an increasing ball lift device (2F). タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量に分割保存した圧力等で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive mercury downward acceleration + various ships Various types of energy storage cycle coalescence engines, which are driven by injection propulsion force + are used to ascend and store liquid metal with an increasing ball lift device (2F). タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6x turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive mercury accelerated downward + intake air flow path length lens Heating air (28a) with heat pump (1G) and air heat exchanger (2X) aiming for infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase ball increase device with increase ball lift device (2F) + Increase ball Various energy storage cycle coalescence engine that uses liquid metal ascending and storing with ascending device (2F) + acceleration with compressed air calorie, mass and gravity + turbine that drives liquid metal to accelerate. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + intake air flow path length lens Heating air (28a) with heat pump (1G) and air heat exchanger (2X) aiming for infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase ball increase device with increase ball lift device (2F) + Increase ball Various energy storage cycle coalescing engines that use the ascending device (2F) to ascend and store liquid metal + acceleration with compressed air calorie, mass and gravity + turbine to drive liquid metal (2E). タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbine in alternate rotation direction to drive mercury downward acceleration + intake air flow path length lens Heating air (28a) with heat pump (1G) and air heat exchanger (2X) aiming for infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase ball increase device with increase ball lift device (2F) + Increase ball Various energy storage cycle coalescence engine that uses liquid metal ascending and storing with ascending device (2F) + acceleration with compressed air calorie, mass and gravity + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate mercury downward + intake air flow path length lens Heating air (28a) with heat pump (1G) and air heat exchanger (2X) aiming for infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase ball increase device with increase ball lift device (2F) + Increase ball Various energy storage cycle coalescence engine that uses liquid metal ascending and storing with ascending device (2F) + acceleration by heat and mass of compressed air, mass and gravity + turbine that drives liquid metal (2E) by rolling contact. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10x turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + intake air flow path length lens Heating air (28a) with heat pump (1G) and air heat exchanger (2X) aiming for infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase ball increase device with increase ball lift device (2F) + Increase ball Various energy storage cycle coalescing engines that use the ascending device (2F) to ascend and store liquid metal + accelerate with compressed air calorie, mass and gravity + turbine drive the liquid metal with compressed air calorie and mass. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 12 times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 13 times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 16 times turbine three-type liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + power increase sphere (2E) with small diameter + acceleration of compressed air heat and mass Combined engine with various energy storage cycles that uses a turbine that accelerates gravity and accelerates liquid metal. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17-times turbine three-type liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + power increasing sphere (2E) with small diameter + acceleration of compressed air heat and mass Various energy storage cycle coalescing engines that are turbines that accelerate by gravity + liquid metal (2E). タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine three-type liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + power increase sphere (2E) is accelerated with small diameter + compressed air heat quantity and mass Combined engine with various energy storage cycles, which is a turbine that accelerates by gravity and accelerates and contacts liquid metal. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19-times turbine three-type driven liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + power increase sphere (2E) with small diameter + acceleration of compressed air heat and mass Various energy conservation cycle coalescing engines, which are turbines that accelerate by gravity and liquid metal (2E) rolls in contact with rolling. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times the turbine 3 types of liquid metal gravity solar engine + equipment method to make all the power generation turbine blades + power increase sphere (2E) is accelerated with a small diameter + compressed air heat quantity and mass Various energy storage cycle coalescing engines that are accelerated by gravity + turbines that drive liquid metal by acceleration and heat of compressed air. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+出力増大球(2E)を小径として加速タービン駆動する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 21 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate specific critical materials downward + output increasing sphere (2E ) Is driven by an accelerated turbine with a small diameter + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engines which are turbines driven by accelerating liquid metal. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+出力増大球(2E)を小径として加速タービン駆動する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to drive the specific material to accelerate downward + output increasing sphere (2E ) Is driven by an accelerating turbine with a small diameter + Accelerated by heat of compressed air, mass and gravity + Various energy storage cycle coalescing engines which are turbines that accelerate the liquid metal (2E). タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+出力増大球(2E)を小径として加速タービン駆動する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) is a liquid metal gravity solar thermal engine driven by 3 types of turbines with 23 times the turbine + horizontal axis (1h) and a turbine with alternating rotation direction is provided to accelerate acceleration of specific critical materials downward + output increasing sphere (2E ) Is driven by an accelerating turbine with a small diameter + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engines which are turbines driven by accelerated rolling contact with liquid metal. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+出力増大球(2E)を小径として加速タービン駆動する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 24 times the turbine 3 types of driving liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the direction of rotation to accelerate the specific critical material downward + output increasing sphere (2E ) Is driven by an accelerating turbine with a small diameter + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engines which are turbines driven by accelerated rolling contact with liquid metal (2E). タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+出力増大球(2E)を小径として加速タービン駆動する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) is a 25-fold turbine driven by three types of liquid metal gravity solar engine + horizontal axis (1h) and turbines with alternating rotation directions are provided to accelerate specific critical materials downward + output increasing sphere (2E ) Is driven by an accelerated turbine with a small diameter + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engines which are turbines driven by liquid metal by accelerated heat and mass of compressed air. タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) double-type turbine driven by three types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotational directions + liquid metal to accelerate downward + various aircraft such as spacecraft Rotation force driving propulsion force + Liquid metal is lifted and stored by using the rising ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycles combined as a turbine that drives liquid metal by acceleration organ. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 3 times turbine driven 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion power drive + Liquid metal is lifted and stored with the increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energies that make the liquid metal (2E) accelerated drive Conservation cycle coalescence organization. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 4x turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force jet driving force + Increase ball storage device (2F) to save and use liquid metal + Compressed air heat, mass and gravity to accelerate + Liquid metal to accelerate rolling contact driving and various energy storage Cycle coalescence engine. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased sphere rising device (2F) lifts and stores liquid metal + Acceleration with compressed air calorie, mass and gravity + Liquid metal (2E) accelerated rolling contact driven turbine Various energy conservation cycle coalescence engine. タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased storage and use of liquid metal with increasing ball rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Turbine driving liquid metal accelerated by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravity acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine which uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine driving liquid metal. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising Various energy storage cycle coalescing engine that uses liquid metal ascending and storing in device (2F) + acceleration with compressed air heat quantity, mass and gravity + turbine driving liquid metal (2E). タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engines that use the equipment (2F) ascending and storing liquid metal + acceleration with compressed air calorie, mass and gravity + turbine and driving the liquid metal (2E) in rolling contact. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times turbine 3 types of liquid metal gravity solar engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by compressed air calorie, mass and gravity + turbine driven by liquid metal accelerated by compressed air calorie and mass. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 12 times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 13 times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17-fold turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + turbines that accelerate liquid metal. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine 3 types of driving liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising sphere rising device (2F) to use and store liquid metal + compressed air Various energy storage cycle coalescing engines that are accelerated by heat, mass, and gravity + a turbine that accelerates liquid metal (2E). タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 19-times turbine 3 type liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising sphere climbing device (2F) to save and use liquid metal + compressed air A combination of various energy conservation cycle engines that are accelerated by heat, mass, and gravity + a turbine that drives liquid metal in an accelerated rolling contact. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising ball lift device (2F) to use and store liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + liquid metal (2E), which is driven by accelerated rolling contact. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 21 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + increase ball rising device (2F) to save and use liquid metal + compressed air Accelerating by heat, mass and gravity + Combined engine of various energy storage cycles, which is a turbine that drives liquid metal with acceleration and heat of compressed air. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22-fold turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternating rotational directions to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) is a 23 times larger turbine driven by three types of liquid metal gravity solar engine + horizontal axis (1h) is provided with turbines alternately rotating in the rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) is doubled turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) is provided with turbines alternately rotating in the rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine which is a turbine that accelerates liquid metal by compressed air calorie and mass. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 3 times turbine driven 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotation force driving propulsion force + Liquid metal is lifted and stored by using the rising ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycles combined as a turbine that drives liquid metal by acceleration organ. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 4x turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion power drive + Liquid metal is lifted and stored with the increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energies that make the liquid metal (2E) accelerated drive Conservation cycle coalescence organization. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force jet driving force + Increase ball storage device (2F) to save and use liquid metal + Compressed air heat, mass and gravity to accelerate + Liquid metal to accelerate rolling contact driving and various energy storage Cycle coalescence engine. タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased sphere rising device (2F) lifts and stores liquid metal + Acceleration with compressed air calorie, mass and gravity + Liquid metal (2E) accelerated rolling contact driven turbine Various energy conservation cycle coalescence engine. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction, liquid metal is accelerated downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased storage and use of liquid metal with increasing ball rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Turbine driving liquid metal accelerated by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising Various energy storage cycle coalescing engine which uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine driving liquid metal. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine that uses liquid metal ascending and storing in device (2F) + acceleration with compressed air heat quantity, mass and gravity + turbine driving liquid metal (2E). タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times turbine 3 types of liquid metal gravity solar engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engines that use the equipment (2F) ascending and storing liquid metal + acceleration with compressed air calorie, mass and gravity + turbine and driving the liquid metal (2E) in rolling contact. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12 times the turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by compressed air calorie, mass and gravity + turbine driven by liquid metal accelerated by compressed air calorie and mass. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 13 times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17-times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines alternately rotating direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine 3 types of driving liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising sphere rising device (2F) to use and store liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + turbines that accelerate liquid metal. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 19-times turbine 3 type liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising sphere climbing device (2F) to save and use liquid metal + compressed air Various energy storage cycle coalescing engines that are accelerated by heat, mass, and gravity + a turbine that accelerates liquid metal (2E). タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising ball lift device (2F) to use and store liquid metal + compressed air A combination of various energy conservation cycle engines that are accelerated by heat, mass, and gravity + a turbine that drives liquid metal in an accelerated rolling contact. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 21 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + increase ball rising device (2F) to save and use liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + liquid metal (2E), which is driven by accelerated rolling contact. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising sphere climbing device (2F) to save and use liquid metal + compressed air Accelerating by heat, mass and gravity + Combined engine of various energy storage cycles, which is a turbine that drives liquid metal with acceleration and heat of compressed air. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) is a 23 times larger turbine driven by three types of liquid metal gravity solar engine + horizontal axis (1h) is provided with turbines alternately rotating in the rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) is doubled turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) is provided with turbines alternately rotating in the rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 3 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 4x turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotation force driving propulsion force + Liquid metal is lifted and stored by using the rising ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycles combined as a turbine that drives liquid metal by acceleration organ. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion power drive + Liquid metal is lifted and stored with the increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energies that make the liquid metal (2E) accelerated drive Conservation cycle coalescence organization. タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotating force jet driving force + Increase ball storage device (2F) to save and use liquid metal + Compressed air heat, mass and gravity to accelerate + Liquid metal to accelerate rolling contact driving and various energy storage Cycle coalescence engine. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction, liquid metal is accelerated downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased sphere rising device (2F) lifts and stores liquid metal + Acceleration with compressed air calorie, mass and gravity + Liquid metal (2E) accelerated rolling contact driven turbine Various energy conservation cycle coalescence engine. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of driving liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased storage and use of liquid metal with increasing ball rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Turbine driving liquid metal accelerated by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine which uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine driving liquid metal. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine that uses liquid metal ascending and storing in device (2F) + acceleration with compressed air heat quantity, mass and gravity + turbine driving liquid metal (2E). タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times turbine 3 types of liquid metal gravity solar engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12 times the turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescing engines that use the equipment (2F) ascending and storing liquid metal + acceleration with compressed air calorie, mass and gravity + turbine and driving the liquid metal (2E) in rolling contact. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) accelerated downward by gravitational acceleration turbine driven + various vehicles driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by compressed air calorie, mass and gravity + turbine driven by liquid metal accelerated by compressed air calorie and mass. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17-times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines alternately rotating direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 19-times turbine 3 type liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising sphere climbing device (2F) to save and use liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + turbines that accelerate liquid metal. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising ball lift device (2F) to use and store liquid metal + compressed air Various energy storage cycle coalescing engines that are accelerated by heat, mass, and gravity + a turbine that accelerates liquid metal (2E). タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 21 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + increase ball rising device (2F) to save and use liquid metal + compressed air A combination of various energy conservation cycle engines that are accelerated by heat, mass, and gravity + a turbine that drives liquid metal in an accelerated rolling contact. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising sphere climbing device (2F) to save and use liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + liquid metal (2E), which is driven by accelerated rolling contact. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 23 times as many as three types of turbine driven liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising ball rising device (2F) to save and use liquid metal + compressed air Accelerating by heat, mass and gravity + Combined engine of various energy storage cycles, which is a turbine that drives liquid metal with acceleration and heat of compressed air. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) is doubled turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) is provided with turbines alternately rotating in the rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 3 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 4x turbine 3 types driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotation force driving propulsion force + Liquid metal is lifted and stored by using the rising ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycles combined as a turbine that drives liquid metal by acceleration organ. タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion power drive + Liquid metal is lifted and stored with the increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energies that make the liquid metal (2E) accelerated drive Conservation cycle coalescence organization. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction, liquid metal is accelerated downward + various aircraft such as spacecraft Rotating force jet driving force + Increase ball storage device (2F) to save and use liquid metal + Compressed air heat, mass and gravity to accelerate + Liquid metal to accelerate rolling contact driving and various energy storage Cycle coalescence engine. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of driving liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased sphere rising device (2F) lifts and stores liquid metal + Acceleration with compressed air calorie, mass and gravity + Liquid metal (2E) accelerated rolling contact driven turbine Various energy conservation cycle coalescence engine. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9x turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased storage and use of liquid metal with increasing ball rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Turbine driving liquid metal accelerated by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine which uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine driving liquid metal. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times turbine 3 types of liquid metal gravity solar engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine that uses liquid metal ascending and storing in device (2F) + acceleration with compressed air heat quantity, mass and gravity + turbine driving liquid metal (2E). タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12 times the turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) accelerated downward by gravitational acceleration turbine driven + various vehicles driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engines that use the equipment (2F) ascending and storing liquid metal + acceleration with compressed air calorie, mass and gravity + turbine and driving the liquid metal (2E) in rolling contact. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by compressed air calorie, mass and gravity + turbine driven by liquid metal accelerated by compressed air calorie and mass. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17-times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines alternately rotating direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19-fold turbine driven by three types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising ball lift device (2F) to use and store liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + turbines that accelerate liquid metal. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 21 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + increase ball rising device (2F) to save and use liquid metal + compressed air Various energy storage cycle coalescing engines that are accelerated by heat, mass, and gravity + a turbine that accelerates liquid metal (2E). タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising sphere climbing device (2F) to save and use liquid metal + compressed air A combination of various energy conservation cycle engines that are accelerated by heat, mass, and gravity + a turbine that drives liquid metal in an accelerated rolling contact. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 23 times as many as three types of turbine driven liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising ball rising device (2F) to save and use liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + liquid metal (2E), which is driven by accelerated rolling contact. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use liquid metal ascending and storing + compressed air Accelerating by heat, mass and gravity + Combined engine of various energy storage cycles, which is a turbine that drives liquid metal with acceleration and heat of compressed air. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) is doubled turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) is provided with turbines alternately rotating in the rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 3 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 4x turbine 3 types driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotation force driving propulsion force + Liquid metal is lifted and stored by using the rising ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycles combined as a turbine that drives liquid metal by acceleration organ. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction, liquid metal is accelerated downward + various aircraft such as spacecraft Rotational force injection propulsion power drive + Liquid metal is lifted and stored with the increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energies that make the liquid metal (2E) accelerated drive Conservation cycle coalescence organization. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of driving liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force jet driving force + Increase ball storage device (2F) to save and use liquid metal + Compressed air heat, mass and gravity to accelerate + Liquid metal to accelerate rolling contact driving and various energy storage Cycle coalescence engine. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9x turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased sphere rising device (2F) lifts and stores liquid metal + Acceleration with compressed air calorie, mass and gravity + Liquid metal (2E) accelerated rolling contact driven turbine Various energy conservation cycle coalescence engine. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased storage and use of liquid metal with increasing ball rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Turbine driving liquid metal accelerated by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times turbine 3 types of liquid metal gravity solar engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine which uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine driving liquid metal. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12 times the turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescing engine that uses liquid metal ascending and storing in device (2F) + acceleration with compressed air heat quantity, mass and gravity + turbine driving liquid metal (2E). タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) accelerated downward by gravitational acceleration turbine driven + various vehicles driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescing engines that use the equipment (2F) ascending and storing liquid metal + acceleration with compressed air calorie, mass and gravity + turbine and driving the liquid metal (2E) in rolling contact. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by compressed air calorie, mass and gravity + turbine driven by liquid metal accelerated by compressed air calorie and mass. タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17-times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines alternately rotating direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19-fold turbine driven by three types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) is a liquid metal gravity solar heat engine driven by three types of turbines with a 20 times magnification + horizontal axis (1h) and a turbine with alternating rotation direction is provided to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 21 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + increase ball rising device (2F) to save and use liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + turbines that accelerate liquid metal. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising sphere climbing device (2F) to save and use liquid metal + compressed air Various energy storage cycle coalescing engines that are accelerated by heat, mass, and gravity + a turbine that accelerates liquid metal (2E). タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 23 times as many as three types of turbine driven liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising ball rising device (2F) to save and use liquid metal + compressed air A combination of various energy conservation cycle engines that are accelerated by heat, mass, and gravity + a turbine that drives liquid metal in an accelerated rolling contact. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use liquid metal ascending and storing + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + liquid metal (2E), which is driven by accelerated rolling contact. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 25-fold turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all power generating turbine blades + rising ball lift device (2F) to save and use liquid metal + compressed air Accelerating by heat, mass and gravity + Combined engine of various energy storage cycles, which is a turbine that drives liquid metal with acceleration and heat of compressed air. タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) is doubled turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) is provided with turbines alternately rotating in the rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 3 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 4x turbine 3 types driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction, liquid metal is accelerated downward + various aircraft such as spacecraft Rotation force driving propulsion force + Liquid metal is lifted and stored by using the rising ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycles combined as a turbine that drives liquid metal by acceleration organ. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of driving liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion power drive + Liquid metal is lifted and stored with an increasing ball lift device (2F) + Compressed air heat, mass and gravity are used for acceleration + Liquid metal (2E) is a turbine that is driven to accelerate Conservation cycle coalescence organization. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9x turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotating force jet driving force + Increase ball storage device (2F) to save and use liquid metal + Compressed air heat, mass and gravity to accelerate + Liquid metal to accelerate rolling contact driving and various energy storage Cycle coalescence engine. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased sphere rising device (2F) lifts and stores liquid metal + Acceleration with compressed air calorie, mass and gravity + Liquid metal (2E) accelerated rolling contact driven turbine Various energy conservation cycle coalescence engine. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 11 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased storage and use of liquid metal with increasing ball rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Turbine driving liquid metal accelerated by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12 times the turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescing engine which uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine driving liquid metal. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) accelerated downward by gravitational acceleration turbine driven + various vehicles driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine that uses liquid metal ascending and storing in device (2F) + acceleration with compressed air heat quantity, mass and gravity + turbine driving liquid metal (2E). タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engines that use the equipment (2F) ascending and storing liquid metal + acceleration with compressed air calorie, mass and gravity + turbine and driving the liquid metal (2E) in rolling contact. タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by compressed air calorie, mass and gravity + turbine driven by liquid metal accelerated by compressed air calorie and mass. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17-times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines alternately rotating direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19-fold turbine driven by three types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) is a liquid metal gravity solar heat engine driven by three types of turbines with a 20 times magnification + horizontal axis (1h) and a turbine with alternating rotation direction is provided to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 21 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to drive the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising sphere climbing device (2F) to save and use liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + turbines that accelerate liquid metal. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 23 times as many as three types of turbine driven liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising ball rising device (2F) to save and use liquid metal + compressed air Various energy storage cycle coalescence engine that is a turbine that accelerates and accelerates liquid metal (2E) by heat, mass and gravity. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use liquid metal ascending and storing + compressed air A combination of various energy conservation cycle engines that are accelerated by heat, mass, and gravity + a turbine that drives liquid metal in an accelerated rolling contact. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 25-fold turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all power generating turbine blades + rising ball lift device (2F) to save and use liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + liquid metal (2E), which is driven by accelerated rolling contact. タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) is doubled turbine 3 type liquid metal gravity solar thermal engine + equipment method to make all the power generating turbine blades + rising ball lift device (2F) lifts and stores liquid metal + compressed air Accelerating with heat, mass and gravity + Combined engine of various energy conservation cycles, which is a turbine that drives liquid metal with acceleration and heat of compressed air. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 3 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 4x turbine 3 types driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length The air heated by the lens (28a) is aimed at infinity with the heat pump (1G) and the air heat exchanger (2X). Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with turbine driven to accelerate liquid metal (2E). タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of driving liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotation force driving propulsion force + Liquid metal is lifted and stored by using the rising ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycles combined as a turbine that drives liquid metal by acceleration organ. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9x turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion power drive + Liquid metal is lifted and stored with an increasing ball lift device (2F) + Compressed air heat, mass and gravity are used for acceleration + Liquid metal (2E) is a turbine that is driven to accelerate Conservation cycle coalescence organization. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force jet driving force + Increase ball storage device (2F) to save and use liquid metal + Compressed air heat, mass and gravity to accelerate + Liquid metal to accelerate rolling contact driving and various energy storage Cycle coalescence engine. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 11 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased sphere rising device (2F) lifts and stores liquid metal + Acceleration with compressed air calorie, mass and gravity + Liquid metal (2E) accelerated rolling contact driven turbine Various energy conservation cycle coalescence engine. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 12 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased storage and use of liquid metal with increasing ball rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Turbine driving liquid metal accelerated by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) accelerated downward by gravitational acceleration turbine driven + various vehicles driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine which uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine driving liquid metal. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescing engine that uses liquid metal ascending and storing in device (2F) + acceleration with compressed air heat quantity, mass and gravity + turbine driving liquid metal (2E). タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescing engines that use the equipment (2F) ascending and storing liquid metal + acceleration with compressed air calorie, mass and gravity + turbine and driving the liquid metal (2E) in rolling contact. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times the turbine 3 types of liquid metal gravity solar heat engine + power increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by compressed air calorie, mass and gravity + turbine driven by liquid metal accelerated by compressed air calorie and mass. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19-fold turbine driven by three types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) is a liquid metal gravity solar heat engine driven by three types of turbines with a 20 times magnification + horizontal axis (1h) and a turbine with alternating rotation direction is provided to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 21 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times as many as 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotational direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 23 times as many as three types of turbine driven liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising ball rising device (2F) to save and use liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + turbines that accelerate liquid metal. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use liquid metal ascending and storing + compressed air Various energy storage cycle coalescing engines that are accelerated by heat, mass, and gravity + a turbine that accelerates liquid metal (2E). タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 25-fold turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all power generating turbine blades + rising ball lift device (2F) to save and use liquid metal + compressed air A combination of various energy conservation cycle engines that are accelerated by heat, mass, and gravity + a turbine that drives liquid metal in an accelerated rolling contact. タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) is doubled turbine 3 type liquid metal gravity solar thermal engine + equipment method to make all the power generating turbine blades + rising ball lift device (2F) lifts and stores liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + liquid metal (2E), which is driven by accelerated rolling contact. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 3 times turbine driven 3 types of liquid metal gravity solar heat engine + Equipment method to make all the power generation turbine blades + Increased sphere riser (2F) to save and use liquid metal + Compressed air Accelerating by heat, mass and gravity + Combined engine of various energy storage cycles, which is a turbine that drives liquid metal with acceleration and heat of compressed air. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 4x turbine 3 types driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9x turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotation force driving propulsion force + Liquid metal is lifted and stored by using the rising ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycles combined as a turbine that drives liquid metal by acceleration organ. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion power drive + Liquid metal is lifted and stored with the increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energies that make the liquid metal (2E) accelerated drive Conservation cycle coalescence organization. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive the liquid metal downward + various aircraft such as spacecraft Rotating force jet driving force + Increase ball storage device (2F) to save and use liquid metal + Compressed air heat, mass and gravity to accelerate + Liquid metal to accelerate rolling contact driving and various energy storage Cycle coalescence engine. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 12 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased sphere rising device (2F) lifts and stores liquid metal + Acceleration with compressed air calorie, mass and gravity + Liquid metal (2E) accelerated rolling contact driven turbine Various energy conservation cycle coalescence engine. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased storage and use of liquid metal with increasing ball rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Turbine driving liquid metal accelerated by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescing engine which uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine driving liquid metal. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine that uses liquid metal ascending and storing in device (2F) + acceleration with compressed air heat quantity, mass and gravity + turbine driving liquid metal (2E). タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times the turbine 3 types of liquid metal gravity solar heat engine + power increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engines that use the equipment (2F) ascending and storing liquid metal + acceleration with compressed air calorie, mass and gravity + turbine and driving the liquid metal (2E) in rolling contact. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine 3 types of liquid metal gravity solar heat engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by compressed air calorie, mass and gravity + turbine driven by liquid metal accelerated by compressed air calorie and mass. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 19-times turbine three-type liquid metal gravity solar engine + configuration and method for accelerating the power augmenting sphere (2E) ++ Liquid metal is lifted and stored in the augmenting sphere ascent device (2F) + Compressed air heat quantity, mass and gravity accelerate + various energy storage cycle coalescing engines that are turbines that accelerate liquid metal. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 20-fold turbine driven 3 types of liquid metal gravity solar engine + configuration and method of accelerating output augmenting sphere (2E) Compressed air heat quantity, mass and gravity accelerates + various energy conservation cycle coalescing engine which makes turbine which accelerates liquid metal (2E). タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 21 times power turbine 3 type liquid metal gravity solar heat engine + configuration and method of accelerating output sphere (2E) ++ Increase sphere riser (2F) to use and store liquid metal + Compressed air heat quantity, mass and gravity accelerate + various energy conservation cycle coalescing engine which is a turbine that drives liquid metal with accelerated rolling contact. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22-fold turbine driven 3 types of liquid metal gravity solar heat engine + configuration and method of accelerating output sphere (2E) ++ Increased storage of liquid metal with increase sphere lift device (2F) + Various energy storage cycle coalescence engine which is a turbine that accelerates and contacts the liquid metal (2E) by acceleration + heat with compressed air calorie, mass and gravity. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) is a 23 times larger turbine driven 3 types of liquid metal gravity solar thermal engine + configuration and method for accelerating the power augmenting sphere (2E) ++ liquid metal is lifted and stored with the augmenting sphere climbing device (2F) + Compressed air heat quantity, mass and gravity accelerate + various energy storage cycle coalescing engines that use a turbine that accelerates liquid metal with compressed air heat quantity and mass. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 24 times as many as three types of turbine driven liquid metal gravity solar heat engine + configuration and method for accelerating output augmenting sphere (2E) Compressed air heat quantity, mass and gravity accelerate + various energy storage cycle coalescing engines that are turbines that accelerate liquid metal. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar heat engine + configuration and method of accelerating the power increasing sphere (2E) ++ using the rising sphere ascent device (2F) to save and use the liquid metal + Compressed air heat quantity, mass and gravity accelerates + various energy conservation cycle coalescing engine which makes turbine which accelerates liquid metal (2E). タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) doubles turbine 3 types driven liquid metal gravity solar heat engine + configuration and method of accelerating output sphere (2E) ++ liquid metal is lifted and stored with increasing sphere rising device (2F) + Compressed air heat quantity, mass and gravity accelerate + various energy conservation cycle coalescing engine which is a turbine that drives liquid metal with accelerated rolling contact. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) three-times turbine-driven liquid metal gravity solar engine + configuration and method of accelerating output augmenting sphere (2E) ++ using and increasing liquid metal with increasing sphere raising device (2F) + Various energy storage cycle coalescence engine which is a turbine that accelerates and contacts the liquid metal (2E) by acceleration + heat with compressed air calorie, mass and gravity. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) quadruple turbine 3 types driven liquid metal gravity solar engine + configuration and method of accelerating output augmenting sphere (2E) Compressed air heat quantity, mass and gravity accelerate + various energy storage cycle coalescing engines that use a turbine that accelerates liquid metal with compressed air heat quantity and mass. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive mercury downward acceleration + various ships Driven by the driving force of injection + Increased sphere rising device (2F) to save and use liquid metal + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine driving liquid metal to accelerate. タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive mercury downward acceleration + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal with the increasing ball lift device (2F) + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as a turbine that accelerates and drives the liquid metal (2E) . タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines in the rotational direction to accelerate the mercury downward + various ships as rotational force Driven by jet propulsion force + Increased and saved ball lift device (2F) uses and saves liquid metal + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine that drives liquid metal by accelerated rolling contact. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Various energy storage cycles using the turbine to drive the liquid metal (2E) in rolling contact Combined organization. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Save various energy as a turbine that drives the liquid metal with compressed air calorie and mass Cycle coalescence engine. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Driven by the driving force of injection + Increased sphere rising device (2F) to save and use liquid metal + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine driving liquid metal to accelerate. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 11 times the turbine three types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide a turbine with alternating rotation direction to accelerate the mercury downward + various ships as rotational force Driven by the driving force of injection + Increased sphere rising device (2F) to save and use liquid metal + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine driving liquid metal to accelerate. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Driven by the driving force of injection + Increased sphere rising device (2F) to save and use liquid metal + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine driving liquid metal to accelerate. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate mercury downward + various ships as rotational force Driven by the driving force of injection + Increased sphere rising device (2F) to save and use liquid metal + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine driving liquid metal to accelerate. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in the rotating direction to drive acceleration of mercury downward + various ships as rotational force Driven by the driving force of injection + Increased sphere rising device (2F) to save and use liquid metal + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine driving liquid metal to accelerate. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines in the rotational direction to accelerate the mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal with the increasing ball lift device (2F) + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as a turbine that accelerates and drives the liquid metal (2E) . タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 16 times turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to drive mercury accelerated downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal with the increasing ball lift device (2F) + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as a turbine that accelerates and drives the liquid metal (2E) . タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal with the increasing ball lift device (2F) + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as a turbine that accelerates and drives the liquid metal (2E) . タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotating direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal with the increasing ball lift device (2F) + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as a turbine that accelerates and drives the liquid metal (2E) . タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19-times turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal with the increasing ball lift device (2F) + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as a turbine that accelerates and drives the liquid metal (2E) . タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 20 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Driven by jet propulsion force + Increased and saved ball lift device (2F) uses and saves liquid metal + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine that drives liquid metal by accelerated rolling contact. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 21 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Driven by jet propulsion force + Increased and saved ball lift device (2F) uses and saves liquid metal + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine that drives liquid metal by accelerated rolling contact. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 22 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Driven by jet propulsion force + Increased and saved ball lift device (2F) uses and saves liquid metal + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine that drives liquid metal by accelerated rolling contact. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 23 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines in the rotational direction alternate to accelerate mercury downward + various ships as rotational force Driven by jet propulsion force + Increased and saved ball lift device (2F) uses and saves liquid metal + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine that drives liquid metal by accelerated rolling contact. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Driven by jet propulsion force + Increased and saved ball lift device (2F) uses and saves liquid metal + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine that drives liquid metal by accelerated rolling contact. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Various energy storage cycles using the turbine to drive the liquid metal (2E) in rolling contact Combined organization. タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) is doubled turbine 3 types of liquid metal gravity solar thermal engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Various energy storage cycles using the turbine to drive the liquid metal (2E) in rolling contact Combined organization. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 3 times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Various energy storage cycles using the turbine to drive the liquid metal (2E) in rolling contact Combined organization. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 4x turbine 3 types driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Various energy storage cycles using the turbine to drive the liquid metal (2E) in rolling contact Combined organization. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive mercury downward acceleration + various ships Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Various energy storage cycles using the turbine to drive the liquid metal (2E) in rolling contact Combined organization. タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive mercury downward acceleration + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Save various energy as a turbine that drives the liquid metal with compressed air calorie and mass Cycle coalescence engine. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines in the rotational direction to accelerate the mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Save various energy as a turbine that drives the liquid metal with compressed air calorie and mass Cycle coalescence engine. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Save various energy as a turbine that drives the liquid metal with compressed air calorie and mass Cycle coalescence engine. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Save various energy as a turbine that drives the liquid metal with compressed air calorie and mass Cycle coalescence engine. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Save various energy as a turbine that drives the liquid metal with compressed air calorie and mass Cycle coalescence engine. タービン翼断面(4b)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量に分割保存した圧力等で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4b) 11 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Various types of energy storage cycle coalescence engines, which are driven by injection propulsion force + are used to ascend and store liquid metal with an increasing ball lift device (2F). タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量に分割保存した圧力等で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Various types of energy storage cycle coalescence engines, which are driven by injection propulsion force + are used to ascend and store liquid metal with an increasing ball lift device (2F). タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量に分割保存した圧力等で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate mercury downward + various ships as rotational force Various types of energy storage cycle coalescence engines, which are driven by injection propulsion force + are used to ascend and store liquid metal with an increasing ball lift device (2F). タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量に分割保存した圧力等で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in the rotating direction to drive acceleration of mercury downward + various ships as rotational force Various types of energy storage cycle coalescence engines, which are driven by injection propulsion force + are used to ascend and store liquid metal with an increasing ball lift device (2F). タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量に分割保存した圧力等で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines in the rotational direction to accelerate the mercury downward + various ships as rotational force Various types of energy storage cycle coalescence engines, which are driven by injection propulsion force + are used to ascend and store liquid metal with an increasing ball lift device (2F). タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16x turbine three-type driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbine in alternating rotation direction to drive mercury downward acceleration + intake air flow path length lens Heating air (28a) aims at infinity with heat pump (1G) and air heat exchanger (2X) Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser (2F) as much as possible Ascending + increasing sphere rising device (2F) to save and use liquid metal + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which makes turbine driven to accelerate liquid metal. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17-times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to drive mercury accelerated downward + intake air flow path length lens Heating air (28a) aims at infinity with heat pump (1G) and air heat exchanger (2X) Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser (2F) as much as possible Various energy storage cycle coalescing engines that use the ascending + increasing sphere ascending device (2F) to ascend and store liquid metal + accelerate by compressed air calorie, mass and gravity + turbine that accelerates liquid metal (2E). タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) with 18 times turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbine in alternating direction of rotation to accelerate mercury downward + intake air flow path length lens Heating air (28a) aims at infinity with heat pump (1G) and air heat exchanger (2X) Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser (2F) as much as possible Various energy storage cycle coalescing engines that use the ascending + increasing ball lifting device (2F) to ascend and store liquid metal + accelerate by compressed air calorie, mass and gravity + turbulently drive the liquid metal in rolling contact. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + intake air flow path length lens Heating air (28a) aims at infinity with heat pump (1G) and air heat exchanger (2X) Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser (2F) as much as possible Various energy storage cycle coalescence engine which uses liquid metal ascending and storing with ascending + increasing ball rising device (2F) + acceleration with compressed air calorie, mass and gravity + accelerated rolling contact with liquid metal (2E). タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) is a liquid metal gravity solar heat engine driven by 3 types of turbines with a 20x turbine + horizontal axis (1h) and a turbine with alternating rotation direction is provided to accelerate mercury downward + an intake air flow path length lens Heating air (28a) aims at infinity with heat pump (1G) and air heat exchanger (2X) Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser (2F) as much as possible Ascending + increasing sphere rising device (2F) is used for ascending and storing liquid metal + accelerating by compressed air calorie, mass and gravity + various energy conservation cycle coalescing engine which is turbine driven by accelerating liquid metal by compressed air calorie and mass. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 21 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times as many as 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotational direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 23 times the power of three types of turbines driven by liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction + liquid lead alloy accelerated downward + intake air flow path Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24x turbine 3 types driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) is doubled turbine 3 type liquid metal gravity solar thermal engine + equipment method to make all the power generating turbine blades + rising ball lift device (2F) lifts and stores liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + turbines that accelerate liquid metal. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 3 times turbine driven 3 types of liquid metal gravity solar heat engine + Equipment method to make all the power generation turbine blades + Increased sphere riser (2F) to save and use liquid metal + Compressed air Various energy storage cycle coalescing engines that are accelerated by heat, mass, and gravity + a turbine that accelerates liquid metal (2E). タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 4 times turbine 3 type liquid metal gravity solar thermal engine + equipment method to make all the power generating turbine blades + increase ball rising device (2F) to use and store liquid metal + compressed air A combination of various energy conservation cycle engines that are accelerated by heat, mass, and gravity + a turbine that drives liquid metal in an accelerated rolling contact. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 5 times turbine 3 type liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + liquid ball rising and storage device with increasing ball rising device (2F) + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + liquid metal (2E), which is driven by accelerated rolling contact. タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6 times turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air Accelerating by heat, mass and gravity + Combined engine of various energy storage cycles, which is a turbine that drives liquid metal with acceleration and heat of compressed air. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11-times turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternating in rotational direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotation force driving propulsion force + Liquid metal is lifted and stored by using the rising ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycles combined as a turbine that drives liquid metal by acceleration organ. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion power drive + Liquid metal is lifted and stored with the increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energies that make the liquid metal (2E) accelerated drive Conservation cycle coalescence organization. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force jet driving force + Increase ball storage device (2F) to save and use liquid metal + Compressed air heat, mass and gravity to accelerate + Liquid metal to accelerate rolling contact driving and various energy storage Cycle coalescence engine. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to rotate the rotating direction of the turbine by rotating the liquid metal downward + various aircraft such as space shuttle Rotating force injection propulsion force driving + Increased sphere rising device (2F) lifts and stores liquid metal + Acceleration with compressed air calorie, mass and gravity + Liquid metal (2E) accelerated rolling contact driven turbine Various energy conservation cycle coalescence engine. タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16x turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as space shuttle Rotating force injection propulsion force driving + Increased storage and use of liquid metal with increasing ball rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Turbine driving liquid metal accelerated by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times the turbine 3 types of liquid metal gravity solar heat engine + power increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine which uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine driving liquid metal. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine 3 types of liquid metal gravity solar heat engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescing engine that uses liquid metal ascending and storing in device (2F) + acceleration with compressed air heat quantity, mass and gravity + turbine driving liquid metal (2E). タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19 times turbine 3 types of liquid metal gravity solar engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engines that use the equipment (2F) ascending and storing liquid metal + acceleration with compressed air calorie, mass and gravity + turbine and driving the liquid metal (2E) in rolling contact. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 21 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by compressed air calorie, mass and gravity + turbine driven by liquid metal accelerated by compressed air calorie and mass. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する++増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) turbines with alternate rotation direction provided to accelerate the liquid lead alloy downward ++ increasing ball lift device ( 2F) Uses ascending storage of liquid metal + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する++増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 23 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to drive the liquid lead alloy downward ++ increasing sphere raising device ( 2F) Uses ascending storage of liquid metal + Acceleration by calorie, mass and gravity of compressed air + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する++増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times larger turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) turbines with alternating rotation direction to drive liquid lead alloy downward ++ increasing sphere raising device ( 2F) Uses ascending storage of liquid metal + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which makes liquid metal accelerated and contact driven. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する++増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) turbines with alternating rotation direction to drive the liquid lead alloy downward ++ increasing sphere raising device ( 2F) Uses ascending storage of liquid metal + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with turbine driven by accelerated rolling contact with liquid metal (2E). タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する++増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) is a liquid metal gravity solar thermal engine driven by three types of turbines with double turbines + horizontal axis (1h) and turbines with rotational directions alternated to accelerate the liquid lead alloy downward ++ increasing sphere raising device 2F) Uses ascending storage of liquid metal + Acceleration by compressed air calorie, mass and gravity + Combined engine of various energy storage cycle as a turbine that accelerates liquid metal by compressed air calorie and mass. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 3 times turbine driven 3 types of liquid metal gravity solar heat engine + Equipment method to make all the power generation turbine blades + Increased sphere riser (2F) to save and use liquid metal + Compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + turbines that accelerate liquid metal. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 4 times turbine 3 type liquid metal gravity solar thermal engine + equipment method to make all the power generating turbine blades + increase ball rising device (2F) to use and store liquid metal + compressed air Various energy storage cycle coalescing engines that are accelerated by heat, mass, and gravity + a turbine that accelerates liquid metal (2E). タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 5 times turbine 3 type liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + liquid ball rising and storage device with increasing ball rising device (2F) + compressed air A combination of various energy conservation cycle engines that are accelerated by heat, mass, and gravity + a turbine that drives liquid metal in an accelerated rolling contact. タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6 times turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + liquid metal (2E), which is driven by accelerated rolling contact. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7-fold turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air Accelerating by heat, mass and gravity + Combined engine of various energy storage cycles, which is a turbine that drives liquid metal with acceleration and heat of compressed air. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11-times turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternating in rotational direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotation force driving propulsion force + Liquid metal is lifted and stored by using the rising ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycles combined as a turbine that drives liquid metal by acceleration organ. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times larger turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) turbines with alternate rotation direction to drive liquid metal downwards + various aircraft such as spacecraft Rotational force injection propulsion power drive + Liquid metal is lifted and stored with the increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energies that make the liquid metal (2E) accelerated drive Conservation cycle coalescence organization. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + various aircraft such as spacecraft Rotating force jet driving force + Increase ball storage device (2F) to save and use liquid metal + Compressed air heat, mass and gravity to accelerate + Liquid metal to accelerate rolling contact driving and various energy storage Cycle coalescence engine. タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 16 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) turbines with alternating rotation direction to drive liquid metal downwards + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased sphere rising device (2F) lifts and stores liquid metal + Acceleration with compressed air calorie, mass and gravity + Liquid metal (2E) accelerated rolling contact driven turbine Various energy conservation cycle coalescence engine. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17-fold turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased storage and use of liquid metal with increasing ball rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Turbine driving liquid metal accelerated by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine 3 types of liquid metal gravity solar heat engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescing engine which uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine driving liquid metal. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19 times turbine 3 types of liquid metal gravity solar engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine that uses liquid metal ascending and storing in device (2F) + acceleration with compressed air heat quantity, mass and gravity + turbine driving liquid metal (2E). タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 21 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescing engines that use the equipment (2F) ascending and storing liquid metal + acceleration with compressed air calorie, mass and gravity + turbine and driving the liquid metal (2E) in rolling contact. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by compressed air calorie, mass and gravity + turbine driven by liquid metal accelerated by compressed air calorie and mass. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 23 times the power of three types of turbines driven by liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction + liquid lead alloy accelerated downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24x turbine 3 types driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) is doubled turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) is provided with turbines with alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) triple-driven liquid metal gravity solar heat engine driven by 3 types of turbines + horizontal axis (1h) with turbines rotating in rotation direction to accelerate liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 4 times turbine 3 type liquid metal gravity solar thermal engine + equipment method to make all the power generating turbine blades + increase ball rising device (2F) to use and store liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + turbines that accelerate liquid metal. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 5 times turbine 3 type liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + liquid ball rising and storage device with increasing ball rising device (2F) + compressed air Various energy storage cycle coalescing engines that are accelerated by heat, mass, and gravity + a turbine that accelerates liquid metal (2E). タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6 times turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air A combination of various energy conservation cycle engines that are accelerated by heat, mass, and gravity + a turbine that drives liquid metal in an accelerated rolling contact. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7-fold turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + liquid metal (2E), which is driven by accelerated rolling contact. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising sphere lift device (2F) to save and use liquid metal + compressed air Accelerating by heat, mass and gravity + Combined engine of various energy storage cycles, which is a turbine that drives liquid metal with acceleration and heat of compressed air. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11-times turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternating in rotational direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 13 times turbine 3 types driven liquid metal gravity solar thermal engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times larger turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) turbines with alternate rotation direction to drive liquid metal downwards + various aircraft such as spacecraft Rotation force driving propulsion force + Liquid metal is lifted and stored by using the rising ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycles combined as a turbine that drives liquid metal by acceleration organ. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to rotate the rotating direction of the turbine by rotating the liquid metal downward + various aircraft such as space shuttle Rotational force injection propulsion power drive + Liquid metal is lifted and stored with the increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energies that make the liquid metal (2E) accelerated drive Conservation cycle coalescence organization. タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 16 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) turbines with alternating rotation direction to drive liquid metal downwards + various aircraft such as spacecraft Rotating force jet driving force + Increase ball storage device (2F) to save and use liquid metal + Compressed air heat, mass and gravity to accelerate + Liquid metal to accelerate rolling contact driving and various energy storage Cycle coalescence engine. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times larger turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased sphere rising device (2F) lifts and stores liquid metal + Acceleration with compressed air calorie, mass and gravity + Liquid metal (2E) accelerated rolling contact driven turbine Various energy conservation cycle coalescence engine. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased storage and use of liquid metal with increasing ball rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Turbine driving liquid metal accelerated by compressed air calorie and mass Various energy conservation cycle coalescing engines. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19 times turbine 3 types of liquid metal gravity solar engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine which uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine driving liquid metal. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine that uses liquid metal ascending and storing in device (2F) + acceleration with compressed air heat quantity, mass and gravity + turbine driving liquid metal (2E). タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 21 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engines that use the equipment (2F) ascending and storing liquid metal + acceleration with compressed air calorie, mass and gravity + turbine and driving the liquid metal (2E) in rolling contact. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 23 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by compressed air calorie, mass and gravity + turbine driven by liquid metal accelerated by compressed air calorie and mass. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24x turbine 3 types driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) is doubled turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) is provided with turbines with alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) triple-driven liquid metal gravity solar heat engine driven by 3 types of turbines + horizontal axis (1h) with turbines rotating in rotation direction to accelerate liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) quadruple turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 5 times turbine 3 type liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + liquid ball rising and storage device with increasing ball rising device (2F) + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + turbines that accelerate liquid metal. タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6 times turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air Various energy storage cycle coalescing engines that are accelerated by heat, mass, and gravity + a turbine that accelerates liquid metal (2E). タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7-fold turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air A combination of various energy conservation cycle engines that are accelerated by heat, mass, and gravity + a turbine that drives liquid metal in an accelerated rolling contact. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising sphere lift device (2F) to save and use liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + liquid metal (2E), which is driven by accelerated rolling contact. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9-times turbine 3 type liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + increase ball rising device (2F) to save and use liquid metal + compressed air Accelerating by heat, mass and gravity + Combined engine of various energy storage cycles, which is a turbine that drives liquid metal with acceleration and heat of compressed air. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11-times turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternating in rotational direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 13 times turbine 3 types driven liquid metal gravity solar thermal engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to rotate the rotating direction of the turbine by rotating the liquid metal downward + various aircraft such as space shuttle Rotation force driving propulsion force + Liquid metal is lifted and stored by using the rising ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycles combined as a turbine that drives liquid metal by acceleration organ. タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 16 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) turbines with alternating rotation direction to drive liquid metal downwards + various aircraft such as spacecraft Rotational force injection propulsion power drive + Liquid metal is lifted and stored with the increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energies that make the liquid metal (2E) accelerated drive Conservation cycle coalescence organization. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times larger turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid metal downward + various aircraft such as spacecraft Rotating force jet driving force + Increase ball storage device (2F) to save and use liquid metal + Compressed air heat, mass and gravity to accelerate + Liquid metal to accelerate rolling contact driving and various energy storage Cycle coalescence engine. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased sphere rising device (2F) lifts and stores liquid metal + Acceleration with compressed air calorie, mass and gravity + Liquid metal (2E) accelerated rolling contact driven turbine Various energy conservation cycle coalescence engine. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19-times turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased storage and use of liquid metal with increasing ball rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Turbine driving liquid metal accelerated by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine which uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine driving liquid metal. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 21 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescing engine that uses liquid metal ascending and storing in device (2F) + acceleration with compressed air heat quantity, mass and gravity + turbine driving liquid metal (2E). タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 23 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engines that use the equipment (2F) ascending and storing liquid metal + acceleration with compressed air calorie, mass and gravity + turbine and driving the liquid metal (2E) in rolling contact. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 24 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by compressed air calorie, mass and gravity + turbine driven by liquid metal accelerated by compressed air calorie and mass. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) is doubled turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) is provided with turbines with alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) triple-driven liquid metal gravity solar heat engine driven by 3 types of turbines + horizontal axis (1h) with turbines rotating in rotation direction to accelerate liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) quadruple turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6 times turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + turbines that accelerate liquid metal. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7-fold turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air Various energy storage cycle coalescing engines that are accelerated by heat, mass, and gravity + a turbine that accelerates liquid metal (2E). タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising sphere lift device (2F) to save and use liquid metal + compressed air A combination of various energy conservation cycle engines that are accelerated by heat, mass, and gravity + a turbine that drives liquid metal in an accelerated rolling contact. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9-times turbine 3 type liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + increase ball rising device (2F) to save and use liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + liquid metal (2E), which is driven by accelerated rolling contact. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times the turbine 3 types of driving liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air Accelerating by heat, mass and gravity + Combined engine of various energy storage cycles, which is a turbine that drives liquid metal with acceleration and heat of compressed air. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11-times turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternating in rotational direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 13 times turbine 3 types driven liquid metal gravity solar thermal engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 16 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) turbines with alternating rotation direction to drive liquid metal downwards + various aircraft such as spacecraft Rotation force driving propulsion force + Liquid metal is lifted and stored by using the rising ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycles combined as a turbine that drives liquid metal by acceleration organ. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times larger turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion power drive + Liquid metal is lifted and stored with the increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energies that make the liquid metal (2E) accelerated drive Conservation cycle coalescence organization. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force jet driving force + Increase ball storage device (2F) to save and use liquid metal + Compressed air heat, mass and gravity to accelerate + Liquid metal to accelerate rolling contact driving and various energy storage Cycle coalescence engine. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19-times turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased sphere rising device (2F) lifts and stores liquid metal + Acceleration with compressed air calorie, mass and gravity + Liquid metal (2E) accelerated rolling contact driven turbine Various energy conservation cycle coalescence engine. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times larger turbine driven 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased storage and use of liquid metal with increasing ball rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Turbine driving liquid metal accelerated by compressed air calorie and mass Various energy conservation cycle coalescing engines. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 21 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescing engine which uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine driving liquid metal. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine that uses liquid metal ascending and storing in device (2F) + acceleration with compressed air heat quantity, mass and gravity + turbine driving liquid metal (2E). タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 23 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 24 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescing engines that use the equipment (2F) ascending and storing liquid metal + acceleration with compressed air calorie, mass and gravity + turbine and driving the liquid metal (2E) in rolling contact. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by compressed air calorie, mass and gravity + turbine driven by liquid metal accelerated by compressed air calorie and mass. タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) is doubled turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) is provided with turbines with alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) triple-driven liquid metal gravity solar heat engine driven by 3 types of turbines + horizontal axis (1h) with turbines rotating in rotation direction to accelerate liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) quadruple turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6x turbine 3 types driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7-fold turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + turbines that accelerate liquid metal. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising sphere lift device (2F) to save and use liquid metal + compressed air Various energy storage cycle coalescing engines that are accelerated by heat, mass, and gravity + a turbine that accelerates liquid metal (2E). タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9-times turbine 3 type liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + increase ball rising device (2F) to save and use liquid metal + compressed air A combination of various energy conservation cycle engines that are accelerated by heat, mass, and gravity + a turbine that drives liquid metal in an accelerated rolling contact. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times the turbine 3 types of driving liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + liquid metal (2E), which is driven by accelerated rolling contact. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + liquid ball rising and using the rising ball rising device (2F) + compressed air Accelerating by heat, mass and gravity + Combined engine of various energy storage cycles, which is a turbine that drives liquid metal with acceleration and heat of compressed air. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 13 times turbine 3 types driven liquid metal gravity solar thermal engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16x turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) turbines with alternate rotation direction to drive specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times larger turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid metal downward + various aircraft such as spacecraft Rotation force driving propulsion force + Liquid metal is lifted and stored by using the rising ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycles combined as a turbine that drives liquid metal by acceleration organ. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion power drive + Liquid metal is lifted and stored with the increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energies that make the liquid metal (2E) accelerated drive Conservation cycle coalescence organization. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19-times turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force jet driving force + Increase ball storage device (2F) to save and use liquid metal + Compressed air heat, mass and gravity to accelerate + Liquid metal to accelerate rolling contact driving and various energy storage Cycle coalescence engine. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times larger turbine driven 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased sphere rising device (2F) lifts and stores liquid metal + Acceleration with compressed air calorie, mass and gravity + Liquid metal (2E) accelerated rolling contact driven turbine Various energy conservation cycle coalescence engine. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 21 times larger turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased storage and use of liquid metal with increasing ball rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Turbine driving liquid metal accelerated by compressed air calorie and mass Various energy conservation cycle coalescing engines. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine which uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine driving liquid metal. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 23 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine that uses liquid metal ascending and storing in device (2F) + acceleration with compressed air heat quantity, mass and gravity + turbine driving liquid metal (2E). タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 24 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engines that use the equipment (2F) ascending and storing liquid metal + acceleration with compressed air calorie, mass and gravity + turbine and driving the liquid metal (2E) in rolling contact. タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) doubles turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by compressed air calorie, mass and gravity + turbine driven by liquid metal accelerated by compressed air calorie and mass. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) triple-driven liquid metal gravity solar heat engine driven by 3 types of turbines + horizontal axis (1h) with turbines rotating in rotation direction to accelerate liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) quadruple turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6x turbine 3 types driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising sphere lift device (2F) to save and use liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + turbines that accelerate liquid metal. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9-times turbine 3 type liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + increase ball rising device (2F) to save and use liquid metal + compressed air Various energy storage cycle coalescing engines that are accelerated by heat, mass, and gravity + a turbine that accelerates liquid metal (2E). タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times the turbine 3 types of driving liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air A combination of various energy conservation cycle engines that are accelerated by heat, mass, and gravity + a turbine that drives liquid metal in an accelerated rolling contact. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + liquid ball rising and using the rising ball rising device (2F) + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + liquid metal (2E), which is driven by accelerated rolling contact. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12 times turbine-driven three types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air Accelerating by heat, mass and gravity + Combined engine of various energy storage cycles, which is a turbine that drives liquid metal with acceleration and heat of compressed air. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 13 times turbine 3 types driven liquid metal gravity solar thermal engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16x turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) turbines with alternate rotation direction to drive specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the direction of rotation to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotation force driving propulsion force + Liquid metal is lifted and stored by using the rising ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycles combined as a turbine that drives liquid metal by acceleration organ. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19-times turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion power drive + Liquid metal is lifted and stored with the increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energies that make the liquid metal (2E) accelerated drive Conservation cycle coalescence organization. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times larger turbine driven 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotating force jet driving force + Increase ball storage device (2F) to save and use liquid metal + Compressed air heat, mass and gravity to accelerate + Liquid metal to accelerate rolling contact driving and various energy storage Cycle coalescence engine. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 21 times larger turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased sphere rising device (2F) lifts and stores liquid metal + Acceleration with compressed air calorie, mass and gravity + Liquid metal (2E) accelerated rolling contact driven turbine Various energy conservation cycle coalescence engine. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times as many as 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased storage and use of liquid metal with increasing ball rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Turbine driving liquid metal accelerated by compressed air calorie and mass Various energy conservation cycle coalescing engines. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 23 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine which uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine driving liquid metal. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 24 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescing engine that uses liquid metal ascending and storing in device (2F) + acceleration with compressed air heat quantity, mass and gravity + turbine driving liquid metal (2E). タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) doubles turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescing engines that use the equipment (2F) ascending and storing liquid metal + acceleration with compressed air calorie, mass and gravity + turbine and driving the liquid metal (2E) in rolling contact. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 3 times turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by compressed air calorie, mass and gravity + turbine driven by liquid metal accelerated by compressed air calorie and mass. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) quadruple turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Combined engine with various energy storage cycles as a turbine that accelerates liquid metal. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6x turbine 3 types driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9-times turbine 3 type liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + increase ball rising device (2F) to save and use liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + turbines that accelerate liquid metal. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times the turbine 3 types of driving liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air Various energy storage cycle coalescing engines that are accelerated by heat, mass, and gravity + a turbine that accelerates liquid metal (2E). タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + liquid ball rising and using the rising ball rising device (2F) + compressed air A combination of various energy conservation cycle engines that are accelerated by heat, mass, and gravity + a turbine that drives liquid metal in an accelerated rolling contact. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12 times turbine-driven three types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + liquid metal (2E), which is driven by accelerated rolling contact. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising sphere rising device (2F) to use and store liquid metal + compressed air Accelerating by heat, mass and gravity + Combined engine of various energy storage cycles, which is a turbine that drives liquid metal with acceleration and heat of compressed air. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16x turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) turbines with alternate rotation direction to drive specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the direction of rotation to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19-times turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotation force driving propulsion force + Liquid metal is lifted and stored by using the rising ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycles combined as a turbine that drives liquid metal by acceleration organ. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times larger turbine driven 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion power drive + Liquid metal is lifted and stored with the increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energies that make the liquid metal (2E) accelerated drive Conservation cycle coalescence organization. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 21 times larger turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force jet driving force + Increase ball storage device (2F) to save and use liquid metal + Compressed air heat, mass and gravity to accelerate + Liquid metal to accelerate rolling contact driving and various energy storage Cycle coalescence engine. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times as many as 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased sphere rising device (2F) lifts and stores liquid metal + Acceleration with compressed air calorie, mass and gravity + Liquid metal (2E) accelerated rolling contact driven turbine Various energy conservation cycle coalescence engine. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 23 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased storage and use of liquid metal with increasing ball rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Turbine driving liquid metal accelerated by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 24 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescing engine which uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine driving liquid metal. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine that uses liquid metal ascending and storing in device (2F) + acceleration with compressed air heat quantity, mass and gravity + turbine driving liquid metal (2E). タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) doubles turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 3 times turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engines that use the equipment (2F) ascending and storing liquid metal + acceleration with compressed air calorie, mass and gravity + turbine and driving the liquid metal (2E) in rolling contact. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) quadruple turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by compressed air calorie, mass and gravity + turbine driven by liquid metal accelerated by compressed air calorie and mass. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 5 times turbine 3 type liquid metal gravity solar thermal engine + configuration and method of accelerating power increase sphere (2E) + intake air flow path length lens heating air compressed heat recovery fuel injection Recover combustion heat and use divided storage + Increase and store liquid metal with increasing sphere rising device (2F) + Accelerate with compressed air calorie, mass and gravity + Combine various energy storage cycles with turbine driven to accelerate liquid metal organ. タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6 times turbine driven 3 types of liquid metal gravity solar heat engine + configuration and method of accelerating the power increase sphere (2E) + intake air flow path length lens heating air compressed air heat recovery fuel injection Recovering combustion heat and using divided storage + Increased storage and use of liquid metal with increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energy for turbine that drives liquid metal (2E) acceleration Conservation cycle coalescence organization. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times turbine 3 types driven liquid metal gravity solar heat engine + configuration and method of accelerating output sphere (2E) + intake air flow path length lens heating air compressed heat recovery fuel injection Recovers combustion heat and uses divided storage + Increases and stores liquid metal with the rising ball lift device (2F) + Accelerates by compressed air heat quantity, mass and gravity + Saves various energy as a turbine that drives the liquid metal by accelerating rolling contact Cycle coalescence engine. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times turbine 3 types driven liquid metal gravity solar heat engine + configuration and method of accelerating output sphere (2E) + intake air flow path length lens heating air compressed heat recovery fuel injection Recovers combustion heat and uses divided storage + Increases and stores liquid metal with increasing sphere rising device (2F) + Accelerates by compressed air calorie, mass and gravity + Makes liquid metal (2E) a turbine that is driven by rolling contact Various energy conservation cycle coalescence engine. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 9 times turbine three-type liquid metal gravity solar engine + configuration and method of accelerating output sphere (2E) + intake air flow path length lens to heat heated compressed air Recover combustion heat and use divided storage + Increase and save liquid metal with increasing sphere rising device (2F) + Accelerate by compressed air calorie, mass and gravity + Turbine to drive liquid metal by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times the turbine 3 types of driving liquid metal gravity solar heat engine + configuration and method of accelerating the power increasing sphere (2E) + intake air flow path length lens heating air compressed heat recovery fuel injection Recover combustion heat and use divided storage + Increase and store liquid metal with increasing sphere rising device (2F) + Accelerate with compressed air calorie, mass and gravity + Combine various energy storage cycles with turbine driven to accelerate liquid metal organ. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times the turbine 3 types of driving liquid metal gravity solar heat engine + configuration and method of accelerating the power increase sphere (2E) + intake air flow path length lens heating air compression compressed fuel recovery fuel injection Recovering combustion heat and using divided storage + Increased storage and use of liquid metal with increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energy for turbine that drives liquid metal (2E) acceleration Conservation cycle coalescence organization. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 12-times turbine three-type liquid metal gravity solar engine + configuration and method for accelerating the power increase sphere (2E) + intake air flow path length lens heating air compressed heat recovery fuel injection Recovers combustion heat and uses divided storage + Increases and stores liquid metal with the rising ball lift device (2F) + Accelerates by compressed air heat quantity, mass and gravity + Saves various energy as a turbine that drives the liquid metal by accelerating rolling contact Cycle coalescence engine. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times turbine 3 types driven liquid metal gravity solar heat engine + configuration and method of accelerating output sphere (2E) + intake air passage length lens heating air compressed heat recovery fuel injection Recovers combustion heat and uses divided storage + Increases and stores liquid metal with increasing sphere rising device (2F) + Accelerates by compressed air calorie, mass and gravity + Makes liquid metal (2E) a turbine that is driven by rolling contact Various energy conservation cycle coalescence engine. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times the turbine 3 types of driving liquid metal gravity solar heat engine + configuration and method of accelerating the power increase sphere (2E) + intake air passage length lens heating air compressed heat recovery fuel injection Recover combustion heat and use divided storage + Increase and save liquid metal with increasing sphere rising device (2F) + Accelerate by compressed air calorie, mass and gravity + Turbine to drive liquid metal by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines in the rotational direction to accelerate the mercury downward + various ships as rotational force Driven by the driving force of injection + Increased sphere rising device (2F) to save and use liquid metal + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine driving liquid metal to accelerate. タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 16 times turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to drive mercury accelerated downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal with the increasing ball lift device (2F) + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as a turbine that accelerates and drives the liquid metal (2E) . タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Driven by jet propulsion force + Increased and saved ball lift device (2F) uses and saves liquid metal + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine that drives liquid metal by accelerated rolling contact. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotating direction to accelerate mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Various energy storage cycles using the turbine to drive the liquid metal (2E) in rolling contact Combined organization. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19-times turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Save various energy as a turbine that drives the liquid metal with compressed air calorie and mass Cycle coalescence engine. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 20 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Driven by the driving force of injection + Increased sphere rising device (2F) to save and use liquid metal + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine driving liquid metal to accelerate. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 21 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Driven by the driving force of injection + Increased sphere rising device (2F) to save and use liquid metal + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine driving liquid metal to accelerate. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 22 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Driven by the driving force of injection + Increased sphere rising device (2F) to save and use liquid metal + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine driving liquid metal to accelerate. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 23 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines in the rotational direction alternate to accelerate mercury downward + various ships as rotational force Driven by the driving force of injection + Increased sphere rising device (2F) to save and use liquid metal + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine driving liquid metal to accelerate. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Driven by the driving force of injection + Increased sphere rising device (2F) to save and use liquid metal + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine driving liquid metal to accelerate. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal with the increasing ball lift device (2F) + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as a turbine that drives the liquid metal (2E) by acceleration . タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) is doubled turbine 3 types of liquid metal gravity solar thermal engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal with the increasing ball lift device (2F) + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as a turbine that accelerates and drives the liquid metal (2E) . タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 3 times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal with the increasing ball lift device (2F) + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as a turbine that accelerates and drives the liquid metal (2E) . タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 4x turbine 3 types driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal with the increasing ball lift device (2F) + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as a turbine that accelerates and drives the liquid metal (2E) . タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive mercury downward acceleration + various ships Drives the jet propulsion force + Increases and stores the liquid metal with the increasing ball lift device (2F) + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as a turbine that accelerates and drives the liquid metal (2E) . タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive mercury downward acceleration + various ships as rotational force Driven by jet propulsion force + Increased and saved ball lift device (2F) uses and saves liquid metal + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine that drives liquid metal by accelerated rolling contact. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines in the rotational direction to accelerate the mercury downward + various ships as rotational force Driven by jet propulsion force + Increased and saved ball lift device (2F) uses and saves liquid metal + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine that drives liquid metal by accelerated rolling contact. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Driven by jet propulsion force + Increased and saved ball lift device (2F) uses and saves liquid metal + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine that drives liquid metal by accelerated rolling contact. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Driven by jet propulsion force + Increased and saved ball lift device (2F) uses and saves liquid metal + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine that drives liquid metal by accelerated rolling contact. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Driven by jet propulsion force + Increased and saved ball lift device (2F) uses and saves liquid metal + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine that drives liquid metal by accelerated rolling contact. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 11 times the turbine three types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide a turbine with alternating rotation direction to accelerate the mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Various energy storage cycles using the turbine to drive the liquid metal (2E) in rolling contact Combined organization. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Various energy storage cycles using the turbine to drive the liquid metal (2E) in rolling contact Combined organization. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Various energy storage cycles using the turbine to drive the liquid metal (2E) in rolling contact Combined organization. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in the rotating direction to drive acceleration of mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Various energy storage cycles using the turbine to drive the liquid metal (2E) in rolling contact Combined organization. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines in the rotational direction to accelerate the mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Various energy storage cycles using the turbine to drive the liquid metal (2E) in rolling contact Combined organization. タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 16 times turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to drive mercury accelerated downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Save various energy as a turbine that drives the liquid metal with compressed air calorie and mass Cycle coalescence engine. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Save various energy as a turbine that drives the liquid metal with compressed air calorie and mass Cycle coalescence engine. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotating direction to accelerate mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Save various energy as a turbine that drives the liquid metal with compressed air calorie and mass Cycle coalescence engine. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19-times turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Save various energy as a turbine that drives the liquid metal with compressed air calorie and mass Cycle coalescence engine. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 20 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Save various energy as a turbine that drives the liquid metal with compressed air calorie and mass Cycle coalescence engine. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量に分割保存した圧力等で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 21 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Various types of energy storage cycle coalescence engines, which are driven by injection propulsion force + are used to ascend and store liquid metal with an increasing ball lift device (2F). タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量に分割保存した圧力等で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 22 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Various types of energy storage cycle coalescence engines, which are driven by injection propulsion force + are used to ascend and store liquid metal with an increasing ball lift device (2F). タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量に分割保存した圧力等で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 23 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines in the rotational direction alternate to accelerate mercury downward + various ships as rotational force Various types of energy storage cycle coalescence engines, which are driven by injection propulsion force + are used to ascend and store liquid metal with an increasing ball lift device (2F). タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量に分割保存した圧力等で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Various types of energy storage cycle coalescence engines, which are driven by injection propulsion force + are used to ascend and store liquid metal with an increasing ball lift device (2F). タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量に分割保存した圧力等で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Various types of energy storage cycle coalescence engines, which are driven by injection propulsion force + are used to ascend and store liquid metal with an increasing ball lift device (2F). タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) is a liquid metal gravity solar heat engine driven by three types of turbines with double turbines + horizontal axis (1h) and a rotating turbine is alternately driven to accelerate mercury downward + an intake air flow path length lens Heating air (28a) with heat pump (1G) and air heat exchanger (2X) aiming for infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase ball increase device with increase ball lift device (2F) + Increase ball Various energy storage cycle coalescence engine that uses liquid metal ascending and storing with ascending device (2F) + acceleration with compressed air calorie, mass and gravity + turbine that drives liquid metal to accelerate. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 3x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in rotation direction to drive mercury accelerated downward + intake air flow path length lens Heating air (28a) with heat pump (1G) and air heat exchanger (2X) aiming for infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase ball increase device with increase ball lift device (2F) + Increase ball Various energy storage cycle coalescing engines that use the ascending device (2F) to ascend and store liquid metal + acceleration with compressed air calorie, mass and gravity + turbine to drive liquid metal (2E). タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 4x turbine three types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to drive mercury downward acceleration + intake air flow path length lens Heating air (28a) with heat pump (1G) and air heat exchanger (2X) aiming for infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase ball increase device with increase ball lift device (2F) + Increase ball Various energy storage cycle coalescence engine that uses liquid metal ascending and storing with ascending device (2F) + acceleration with compressed air calorie, mass and gravity + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5x turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbine in alternating rotation direction and mercury acceleration driving downward + intake air flow path length lens Heating air (28a) with heat pump (1G) and air heat exchanger (2X) aiming for infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase ball increase device with increase ball lift device (2F) + Increase ball Various energy storage cycle coalescence engine that uses liquid metal ascending and storing with ascending device (2F) + acceleration by heat and mass of compressed air, mass and gravity + turbine that drives liquid metal (2E) by rolling contact. タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6x turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive mercury accelerated downward + intake air flow path length lens Heating air (28a) with heat pump (1G) and air heat exchanger (2X) aiming for infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase ball increase device with increase ball lift device (2F) + Increase ball Various energy storage cycle coalescing engines that use the ascending device (2F) to ascend and store liquid metal + accelerate with compressed air calorie, mass and gravity + turbine drive the liquid metal with compressed air calorie and mass. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 9 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotation direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10x turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12 times turbine-driven three types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + turbines that accelerate liquid metal. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising sphere rising device (2F) to use and store liquid metal + compressed air Various energy storage cycle coalescing engines that are accelerated by heat, mass, and gravity + a turbine that accelerates liquid metal (2E). タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times the turbine 3 types of driving liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising sphere climbing device (2F) to use and store liquid metal + compressed air A combination of various energy conservation cycle engines that are accelerated by heat, mass, and gravity + a turbine that drives liquid metal in an accelerated rolling contact. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + liquid metal (2E), which is driven by accelerated rolling contact. タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times turbine 3 types driven liquid metal gravity solar heat engine + equipment method to make all power generating turbine blades + increase ball rising device (2F) to save and use liquid metal + compressed air Accelerating by heat, mass and gravity + Combined engine of various energy storage cycles, which is a turbine that drives liquid metal with acceleration and heat of compressed air. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the direction of rotation to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 19-times turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternating in rotational direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 20-fold turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines in alternate rotation directions to drive specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 21 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternate rotational directions to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times as many as 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid metal downward + various aircraft such as spacecraft Rotation force driving propulsion force + Liquid metal is lifted and stored by using the rising ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycles combined as a turbine that drives liquid metal by acceleration organ. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 23 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion power drive + Liquid metal is lifted and stored with the increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energies that make the liquid metal (2E) accelerated drive Conservation cycle coalescence organization. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force jet driving force + Increase ball storage device (2F) to save and use liquid metal + Compressed air heat, mass and gravity to accelerate + Liquid metal to accelerate rolling contact driving and various energy storage Cycle coalescence engine. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid metal downwards + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased sphere rising device (2F) lifts and stores liquid metal + Acceleration with compressed air calorie, mass and gravity + Liquid metal (2E) accelerated rolling contact driven turbine Various energy conservation cycle coalescence engine. タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) double-type turbine driven by three types of liquid metal gravity solar engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction, and liquid metal is accelerated downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased storage and use of liquid metal with increasing ball rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Turbine driving liquid metal accelerated by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 3 times turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine which uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine driving liquid metal. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) quadruple turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising Various energy storage cycle coalescing engine that uses liquid metal ascending and storing in device (2F) + acceleration with compressed air heat quantity, mass and gravity + turbine driving liquid metal (2E). タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times turbine 3 type liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6 times turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescing engines that use the equipment (2F) ascending and storing liquid metal + acceleration with compressed air calorie, mass and gravity + turbine and driving the liquid metal (2E) in rolling contact. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravity acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by compressed air calorie, mass and gravity + turbine driven by liquid metal accelerated by compressed air calorie and mass. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 9 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotation direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10x turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 12 times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising sphere rising device (2F) to use and store liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + turbines that accelerate liquid metal. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times the turbine 3 types of driving liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising sphere climbing device (2F) to use and store liquid metal + compressed air Various energy storage cycle coalescing engines that are accelerated by heat, mass, and gravity + a turbine that accelerates liquid metal (2E). タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air A combination of various energy conservation cycle engines that are accelerated by heat, mass, and gravity + a turbine that drives liquid metal in an accelerated rolling contact. タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times turbine 3 types driven liquid metal gravity solar heat engine + equipment method to make all power generating turbine blades + increase ball rising device (2F) to save and use liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + liquid metal (2E), which is driven by accelerated rolling contact. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17-fold turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air Accelerating by heat, mass and gravity + Combined engine of various energy storage cycles, which is a turbine that drives liquid metal with acceleration and heat of compressed air. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 19-times turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternating in rotational direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 20-fold turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines in alternate rotation directions to drive specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 21 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternate rotational directions to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22-fold turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternating rotational directions to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 23 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotation force driving propulsion force + Liquid metal is lifted and stored by using the rising ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycles combined as a turbine that drives liquid metal by acceleration organ. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion power drive + Liquid metal is lifted and stored with the increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energies that make the liquid metal (2E) accelerated drive Conservation cycle coalescence organization. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine three types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force jet driving force + Increase ball storage device (2F) to save and use liquid metal + Compressed air heat, mass and gravity to accelerate + Liquid metal to accelerate rolling contact driving and various energy storage Cycle coalescence engine. タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) double-type turbine driven by three types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotational directions + liquid metal to accelerate downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased sphere rising device (2F) lifts and stores liquid metal + Acceleration with compressed air calorie, mass and gravity + Liquid metal (2E) accelerated rolling contact driven turbine Various energy conservation cycle coalescence engine. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 3 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive the liquid metal downward + various aircraft such as space shuttle Rotating force injection propulsion force driving + Increased storage and use of liquid metal with increasing ball rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Turbine driving liquid metal accelerated by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) quadruple turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising Various energy storage cycle coalescing engine which uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine driving liquid metal. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times turbine 3 type liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescing engine that uses liquid metal ascending and storing in device (2F) + acceleration with compressed air heat quantity, mass and gravity + turbine driving liquid metal (2E). タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6 times turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravity acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engines that use the equipment (2F) ascending and storing liquid metal + acceleration with compressed air calorie, mass and gravity + turbine and driving the liquid metal (2E) in rolling contact. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by compressed air calorie, mass and gravity + turbine driven by liquid metal accelerated by compressed air calorie and mass. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 9 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotation direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10x turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 12 times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 13 times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times the turbine 3 types of driving liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising sphere climbing device (2F) to use and store liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + turbines that accelerate liquid metal. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air Various energy storage cycle coalescing engines that are accelerated by heat, mass, and gravity + a turbine that accelerates liquid metal (2E). タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times turbine 3 types driven liquid metal gravity solar heat engine + equipment method to make all power generating turbine blades + increase ball rising device (2F) to save and use liquid metal + compressed air A combination of various energy conservation cycle engines that are accelerated by heat, mass, and gravity + a turbine that drives liquid metal in an accelerated rolling contact. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17-fold turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + liquid metal (2E), which is driven by accelerated rolling contact. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine 3 types of driving liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising sphere rising device (2F) to use and store liquid metal + compressed air Accelerating by heat, mass and gravity + Combined engine of various energy storage cycles, which is a turbine that drives liquid metal with acceleration and heat of compressed air. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 19-times turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternating in rotational direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 20-fold turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines in alternate rotation directions to drive specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 21 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternate rotational directions to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22-fold turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternating rotational directions to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) is a 23 times larger turbine driven by three types of liquid metal gravity solar engine + horizontal axis (1h) is provided with turbines alternately rotating in the rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotation force driving propulsion force + Liquid metal is lifted and stored by using the rising ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycles combined as a turbine that drives liquid metal by acceleration organ. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid metal downwards + various aircraft such as spacecraft Rotational force injection propulsion power drive + Liquid metal is lifted and stored with the increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energies that make the liquid metal (2E) accelerated drive Conservation cycle coalescence organization. タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) double-type turbine driven by three types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotational directions + liquid metal to accelerate downward + various aircraft such as spacecraft Rotating force jet driving force + Increase ball storage device (2F) to save and use liquid metal + Compressed air heat, mass and gravity to accelerate + Liquid metal to accelerate rolling contact driving and various energy storage Cycle coalescence engine. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 3 times turbine driven 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased sphere rising device (2F) lifts and stores liquid metal + Acceleration with compressed air calorie, mass and gravity + Liquid metal (2E) accelerated rolling contact driven turbine Various energy conservation cycle coalescence engine. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 4x turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased storage and use of liquid metal with increasing ball rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Turbine driving liquid metal accelerated by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times turbine 3 type liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescing engine which uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine driving liquid metal. タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6 times turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescing engine that uses liquid metal ascending and storing in device (2F) + acceleration with compressed air heat quantity, mass and gravity + turbine driving liquid metal (2E). タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravity acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising Various energy storage cycle coalescing engines that use the equipment (2F) ascending and storing liquid metal + acceleration with compressed air calorie, mass and gravity + turbine and driving the liquid metal (2E) in rolling contact. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by compressed air calorie, mass and gravity + turbine driven by liquid metal accelerated by compressed air calorie and mass. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10x turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 12 times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 13 times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + turbines that accelerate liquid metal. タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times turbine 3 types driven liquid metal gravity solar heat engine + equipment method to make all power generating turbine blades + increase ball rising device (2F) to save and use liquid metal + compressed air Various energy storage cycle coalescing engines that are accelerated by heat, mass, and gravity + a turbine that accelerates liquid metal (2E). タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17-fold turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air A combination of various energy conservation cycle engines that are accelerated by heat, mass, and gravity + a turbine that drives liquid metal in an accelerated rolling contact. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine 3 types of driving liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising sphere rising device (2F) to use and store liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + liquid metal (2E), which is driven by accelerated rolling contact. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 19-times turbine 3 type liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising sphere climbing device (2F) to save and use liquid metal + compressed air Accelerating by heat, mass and gravity + Combined engine of various energy storage cycles, which is a turbine that drives liquid metal with acceleration and heat of compressed air. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 20-fold turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines in alternate rotation directions to drive specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 21 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternate rotational directions to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22-fold turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternating rotational directions to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) is a 23 times larger turbine driven by three types of liquid metal gravity solar engine + horizontal axis (1h) is provided with turbines alternately rotating in the rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid metal downwards + various aircraft such as spacecraft Rotation force driving propulsion force + Liquid metal is lifted and stored by using the rising ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycles combined as a turbine that drives liquid metal by acceleration organ. タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) double-type turbine driven by three types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotational directions + liquid metal to accelerate downward + various aircraft such as spacecraft Rotational force injection propulsion power drive + Liquid metal is lifted and stored with the increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energies that make the liquid metal (2E) accelerated drive Conservation cycle coalescence organization. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 3 times turbine driven 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotating force jet driving force + Increase ball storage device (2F) to save and use liquid metal + Compressed air heat, mass and gravity to accelerate + Liquid metal to accelerate rolling contact driving and various energy storage Cycle coalescence engine. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 4x turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased sphere rising device (2F) lifts and stores liquid metal + Acceleration with compressed air calorie, mass and gravity + Liquid metal (2E) accelerated rolling contact driven turbine Various energy conservation cycle coalescence engine. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased storage and use of liquid metal with increasing ball rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Turbine driving liquid metal accelerated by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6 times turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescing engine which uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine driving liquid metal. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravity acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine that uses liquid metal ascending and storing in device (2F) + acceleration with compressed air heat quantity, mass and gravity + turbine driving liquid metal (2E). タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engines that use the equipment (2F) ascending and storing liquid metal + acceleration with compressed air calorie, mass and gravity + turbine and driving the liquid metal (2E) in rolling contact. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by compressed air calorie, mass and gravity + turbine driven by liquid metal accelerated by compressed air calorie and mass. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 12 times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 13 times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times turbine 3 types driven liquid metal gravity solar heat engine + equipment method to make all power generating turbine blades + increase ball rising device (2F) to save and use liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + turbines that accelerate liquid metal. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17-fold turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air Various energy storage cycle coalescing engines that are accelerated by heat, mass, and gravity + a turbine that accelerates liquid metal (2E). タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine 3 types of driving liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising sphere rising device (2F) to use and store liquid metal + compressed air A combination of various energy conservation cycle engines that are accelerated by heat, mass, and gravity + a turbine that drives liquid metal in an accelerated rolling contact. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 19-times turbine 3 type liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising sphere climbing device (2F) to save and use liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + liquid metal (2E), which is driven by accelerated rolling contact. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising ball lift device (2F) to use and store liquid metal + compressed air Accelerating by heat, mass and gravity + Combined engine of various energy storage cycles, which is a turbine that drives liquid metal with acceleration and heat of compressed air. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 21 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternate rotational directions to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22-fold turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternating rotational directions to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) is a 23 times larger turbine driven by three types of liquid metal gravity solar engine + horizontal axis (1h) is provided with turbines alternately rotating in the rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) double-type turbine driven by three types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotational directions + liquid metal to accelerate downward + various aircraft such as spacecraft Rotation force driving propulsion force + Liquid metal is lifted and stored by using the rising ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycles combined as a turbine that drives liquid metal by acceleration organ. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 3 times turbine driven 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion power drive + Liquid metal is lifted and stored with the increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energies that make the liquid metal (2E) accelerated drive Conservation cycle coalescence organization. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 4x turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force jet driving force + Increase ball storage device (2F) to save and use liquid metal + Compressed air heat, mass and gravity to accelerate + Liquid metal to accelerate rolling contact driving and various energy storage Cycle coalescence engine. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased sphere rising device (2F) lifts and stores liquid metal + Acceleration with compressed air calorie, mass and gravity + Liquid metal (2E) accelerated rolling contact driven turbine Various energy conservation cycle coalescence engine. タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased storage and use of liquid metal with increasing ball rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Turbine driving liquid metal accelerated by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravity acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine which uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine driving liquid metal. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising Various energy storage cycle coalescing engine that uses liquid metal ascending and storing in device (2F) + acceleration with compressed air heat quantity, mass and gravity + turbine driving liquid metal (2E). タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engines that use the equipment (2F) ascending and storing liquid metal + acceleration with compressed air calorie, mass and gravity + turbine and driving the liquid metal (2E) in rolling contact. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times turbine 3 types of liquid metal gravity solar engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by compressed air calorie, mass and gravity + turbine driven by liquid metal accelerated by compressed air calorie and mass. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 12 times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 13 times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17-fold turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + turbines that accelerate liquid metal. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine 3 types of driving liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising sphere rising device (2F) to use and store liquid metal + compressed air Various energy storage cycle coalescing engines that are accelerated by heat, mass, and gravity + a turbine that accelerates liquid metal (2E). タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 19-times turbine 3 type liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising sphere climbing device (2F) to save and use liquid metal + compressed air A combination of various energy conservation cycle engines that are accelerated by heat, mass, and gravity + a turbine that drives liquid metal in an accelerated rolling contact. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising ball lift device (2F) to use and store liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + liquid metal (2E), which is driven by accelerated rolling contact. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 21 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + increase ball rising device (2F) to save and use liquid metal + compressed air Accelerating by heat, mass and gravity + Combined engine of various energy storage cycles, which is a turbine that drives liquid metal with acceleration and heat of compressed air. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22-fold turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternating rotational directions to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) is a 23 times larger turbine driven by three types of liquid metal gravity solar engine + horizontal axis (1h) is provided with turbines alternately rotating in the rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) is doubled turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) is provided with turbines alternately rotating in the rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine which is a turbine that accelerates liquid metal by compressed air calorie and mass. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 3 times turbine driven 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotation force driving propulsion force + Liquid metal is lifted and stored by using the rising ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycles combined as a turbine that drives liquid metal by acceleration organ. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 4x turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion power drive + Liquid metal is lifted and stored with the increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energies that make the liquid metal (2E) accelerated drive Conservation cycle coalescence organization. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force jet driving force + Increase ball storage device (2F) to save and use liquid metal + Compressed air heat, mass and gravity to accelerate + Liquid metal to accelerate rolling contact driving and various energy storage Cycle coalescence engine. タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased sphere rising device (2F) lifts and stores liquid metal + Acceleration with compressed air calorie, mass and gravity + Liquid metal (2E) accelerated rolling contact driven turbine Various energy conservation cycle coalescence engine. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction, liquid metal is accelerated downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased storage and use of liquid metal with increasing ball rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Turbine driving liquid metal accelerated by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising Various energy storage cycle coalescing engine which uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine driving liquid metal. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine that uses liquid metal ascending and storing in device (2F) + acceleration with compressed air heat quantity, mass and gravity + turbine driving liquid metal (2E). タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times turbine 3 types of liquid metal gravity solar engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engines that use the equipment (2F) ascending and storing liquid metal + acceleration with compressed air calorie, mass and gravity + turbine and driving the liquid metal (2E) in rolling contact. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12 times the turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by compressed air calorie, mass and gravity + turbine driven by liquid metal accelerated by compressed air calorie and mass. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 13 times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17-times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines alternately rotating direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine 3 types of driving liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising sphere rising device (2F) to use and store liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + turbines that accelerate liquid metal. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 19-times turbine 3 type liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising sphere climbing device (2F) to save and use liquid metal + compressed air Various energy storage cycle coalescing engines that are accelerated by heat, mass, and gravity + a turbine that accelerates liquid metal (2E). タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising ball lift device (2F) to use and store liquid metal + compressed air A combination of various energy conservation cycle engines that are accelerated by heat, mass, and gravity + a turbine that drives liquid metal in an accelerated rolling contact. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 21 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + increase ball rising device (2F) to save and use liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + liquid metal (2E), which is driven by accelerated rolling contact. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising sphere climbing device (2F) to save and use liquid metal + compressed air Accelerating by heat, mass and gravity + Combined engine of various energy storage cycles, which is a turbine that drives liquid metal with acceleration and heat of compressed air. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) is a 23 times larger turbine driven by three types of liquid metal gravity solar engine + horizontal axis (1h) is provided with turbines alternately rotating in the rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) is doubled turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) is provided with turbines alternately rotating in the rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 3 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 4x turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotation force driving propulsion force + Liquid metal is lifted and stored by using the rising ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycles combined as a turbine that drives liquid metal by acceleration organ. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion power drive + Liquid metal is lifted and stored with the increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energies that make the liquid metal (2E) accelerated drive Conservation cycle coalescence organization. タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotating force jet driving force + Increase ball storage device (2F) to save and use liquid metal + Compressed air heat, mass and gravity to accelerate + Liquid metal to accelerate rolling contact driving and various energy storage Cycle coalescence engine. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction, liquid metal is accelerated downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased sphere rising device (2F) lifts and stores liquid metal + Acceleration with compressed air calorie, mass and gravity + Liquid metal (2E) accelerated rolling contact driven turbine Various energy conservation cycle coalescence engine. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of driving liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased storage and use of liquid metal with increasing ball rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Turbine driving liquid metal accelerated by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine which uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine driving liquid metal. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine that uses liquid metal ascending and storing in device (2F) + acceleration with compressed air heat quantity, mass and gravity + turbine driving liquid metal (2E). タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times turbine 3 types of liquid metal gravity solar engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12 times the turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescing engines that use the equipment (2F) ascending and storing liquid metal + acceleration with compressed air calorie, mass and gravity + turbine and driving the liquid metal (2E) in rolling contact. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) accelerated downward by gravitational acceleration turbine driven + various vehicles driven by rotational force + increasing sphere rising Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by compressed air calorie, mass and gravity + turbine driven by liquid metal accelerated by compressed air calorie and mass. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17-times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines alternately rotating direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 19-times turbine 3 type liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising sphere climbing device (2F) to save and use liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + turbines that accelerate liquid metal. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising ball lift device (2F) to use and store liquid metal + compressed air Various energy storage cycle coalescing engines that are accelerated by heat, mass, and gravity + a turbine that accelerates liquid metal (2E). タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 21 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + increase ball rising device (2F) to save and use liquid metal + compressed air A combination of various energy conservation cycle engines that are accelerated by heat, mass, and gravity + a turbine that drives liquid metal in an accelerated rolling contact. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising sphere climbing device (2F) to save and use liquid metal + compressed air Various energy conservation cycle coalescing engines that are accelerated by heat, mass and gravity + liquid metal (2E), which is driven by accelerated rolling contact. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 23 times as many as three types of turbine driven liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising ball rising device (2F) to save and use liquid metal + compressed air Accelerating by heat, mass and gravity + Combined engine of various energy storage cycles, which is a turbine that drives liquid metal with acceleration and heat of compressed air. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed air calorie, acceleration by mass and gravity + Combined engine of various energy storage cycle as turbine driving acceleration of liquid metal (2E). タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) is doubled turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) is provided with turbines alternately rotating in the rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Uses ascending storage + Acceleration by heat quantity, mass and gravity of compressed air + Combined engine of various energy storage cycles as a turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 3 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal (2E) driven in rolling contact with rolling. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 4x turbine 3 types driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engine with turbine driven to accelerate liquid metal with compressed air calorie and mass. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotation force driving propulsion force + Liquid metal is lifted and stored by using the rising ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycles combined as a turbine that drives liquid metal by acceleration organ. タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion power drive + Liquid metal is lifted and stored with the increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energies that make the liquid metal (2E) accelerated drive Conservation cycle coalescence organization. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction, liquid metal is accelerated downward + various aircraft such as spacecraft Rotating force jet driving force + Increase ball storage device (2F) to save and use liquid metal + Compressed air heat, mass and gravity to accelerate + Liquid metal to accelerate rolling contact driving and various energy storage Cycle coalescence engine. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of driving liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased sphere rising device (2F) lifts and stores liquid metal + Acceleration with compressed air calorie, mass and gravity + Liquid metal (2E) accelerated rolling contact driven turbine Various energy conservation cycle coalescence engine. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9x turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion force driving + Increased storage and use of liquid metal with increasing ball rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Turbine driving liquid metal accelerated by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine which uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine driving liquid metal. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times turbine 3 types of liquid metal gravity solar engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engine that uses liquid metal ascending and storing in device (2F) + acceleration with compressed air heat quantity, mass and gravity + turbine driving liquid metal (2E). タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12 times the turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by heat quantity, mass and gravity of compressed air + turbine that drives liquid metal in accelerated rolling contact. タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) accelerated downward by gravitational acceleration turbine driven + various vehicles driven by rotational force + increasing sphere rising Various energy storage cycle coalescing engines that use the equipment (2F) ascending and storing liquid metal + acceleration with compressed air calorie, mass and gravity + turbine and driving the liquid metal (2E) in rolling contact. タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise Various energy storage cycle coalescence engine that uses liquid metal ascending and storing in device (2F) + acceleration by compressed air calorie, mass and gravity + turbine driven by liquid metal accelerated by compressed air calorie and mass. タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times the turbine 3 types of driving liquid metal gravity solar heat engine + configuration and method of accelerating the power increase sphere (2E) + intake air flow path length lens heating air compressed heat recovery fuel injection Recover combustion heat and use divided storage + Increase and store liquid metal with increasing sphere rising device (2F) + Accelerate with compressed air calorie, mass and gravity + Combine various energy storage cycles with turbine driven to accelerate liquid metal organ. タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times turbine 3 types driven liquid metal gravity solar heat engine + configuration and method of accelerating output sphere (2E) + intake air flow path length lens heating air compressed heat recovery fuel injection Recovering combustion heat and using divided storage + Increased storage and use of liquid metal with increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energy for turbine that drives liquid metal (2E) acceleration Conservation cycle coalescence organization. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17-fold turbine driven 3 types of liquid metal gravity solar heat engine + configuration and method of accelerating output sphere (2E) + intake air passage length lens heating air compressed heat recovery fuel injection Recovers combustion heat and uses divided storage + Increases and stores liquid metal with the rising ball lift device (2F) + Accelerates by compressed air heat quantity, mass and gravity + Saves various energy as a turbine that drives the liquid metal by accelerating rolling contact Cycle coalescence engine. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine 3 types of driving liquid metal gravity solar heat engine + configuration and method of accelerating the power increase sphere (2E) + intake air flow path length lens heating air compressed heat recovery fuel injection Recovers combustion heat and uses divided storage + Increases and stores liquid metal with increasing sphere rising device (2F) + Accelerates by compressed air calorie, mass and gravity + Makes liquid metal (2E) a turbine that is driven by rolling contact Various energy conservation cycle coalescence engine. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 19-fold turbine driven 3 types of liquid metal gravity solar engine + configuration and method of accelerating output sphere (2E) + intake air passage length lens heating air compressed heat recovery fuel injection Recover combustion heat and use divided storage + Increase and save liquid metal with increasing sphere rising device (2F) + Accelerate by compressed air calorie, mass and gravity + Turbine to drive liquid metal by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20-fold turbine driven 3 types of liquid metal gravity solar engine + configuration and method of accelerating output sphere (2E) + intake air passage length lens heating air compressed heat recovery fuel injection Recover combustion heat and use divided storage + Increase and store liquid metal with increasing sphere rising device (2F) + Accelerate with compressed air calorie, mass and gravity + Combine various energy storage cycles with turbine driven to accelerate liquid metal organ. タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 21 times the turbine 3 types of driving liquid metal gravity solar heat engine + configuration and method of accelerating the power increase sphere (2E) + intake air flow path length lens heating air compressed heat recovery fuel injection Recovering combustion heat and using divided storage + Increased storage and use of liquid metal with increasing ball lift device (2F) + Acceleration with compressed air calorie, mass and gravity + Various energy for turbine that drives liquid metal (2E) acceleration Conservation cycle coalescence organization. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 22 times the turbine 3 types of driving liquid metal gravity solar heat engine + configuration and method of accelerating the output sphere (2E) + intake air flow path length lens heating air compression compressed fuel recovery fuel injection Recovers combustion heat and uses divided storage + Increases and stores liquid metal with the rising ball lift device (2F) + Accelerates by compressed air heat quantity, mass and gravity + Saves various energy as a turbine that drives the liquid metal by accelerating rolling contact Cycle coalescence engine. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 23-fold turbine driven 3 types of liquid metal gravity solar heat engine + configuration and method of accelerating output sphere (2E) + intake air passage length lens heating air compressed heat recovery fuel injection Recovers combustion heat and uses divided storage + Increases and stores liquid metal with increasing sphere rising device (2F) + Accelerates by compressed air calorie, mass and gravity + Makes liquid metal (2E) a turbine that is driven by rolling contact Various energy conservation cycle coalescence engine. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times the turbine 3 types of liquid metal gravity solar heat engine + configuration and method of accelerating the power increase sphere (2E) + intake air flow path length lens to heat the compressed air heat recovery fuel injection Recover combustion heat and use divided storage + Increase and save liquid metal with increasing sphere rising device (2F) + Accelerate by compressed air calorie, mass and gravity + Turbine to drive liquid metal by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Driven by the driving force of injection + Increased sphere rising device (2F) to save and use liquid metal + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine driving liquid metal to accelerate. タービン翼断面(4E)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) is doubled turbine 3 types of liquid metal gravity solar thermal engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal with the increasing ball lift device (2F) + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as a turbine that accelerates and drives the liquid metal (2E) . タービン翼断面(4F)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 3 times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Driven by jet propulsion force + Increased and saved ball lift device (2F) uses and saves liquid metal + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine that drives liquid metal by accelerated rolling contact. タービン翼断面(4A)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 4x turbine 3 types driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Various energy storage cycles using the turbine to drive the liquid metal (2E) in rolling contact Combined organization. タービン翼断面(4B)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive mercury downward acceleration + various ships Drive the jet propulsive force + Increase and store the liquid metal with the increasing ball lift device (2F) + Accelerate with compressed air calorie, mass and gravity + Save various energy as a turbine that drives the liquid metal with compressed air calorie and mass Cycle coalescence engine. タービン翼断面(4C)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive mercury downward acceleration + various ships as rotational force Driven by the driving force of injection + Increased sphere rising device (2F) to save and use liquid metal + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine driving liquid metal to accelerate. タービン翼断面(4D)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines in the rotational direction to accelerate the mercury downward + various ships as rotational force Driven by the driving force of injection + Increased sphere rising device (2F) to save and use liquid metal + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine driving liquid metal to accelerate. タービン翼断面(4E)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Driven by the driving force of injection + Increased sphere rising device (2F) to save and use liquid metal + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine driving liquid metal to accelerate. タービン翼断面(4F)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Driven by the driving force of injection + Increased sphere rising device (2F) to save and use liquid metal + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine driving liquid metal to accelerate. タービン翼断面(4A)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Driven by the driving force of injection + Increased sphere rising device (2F) to save and use liquid metal + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine driving liquid metal to accelerate. タービン翼断面(4B)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 11 times the turbine three types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide a turbine with alternating rotation direction to accelerate the mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal with the increasing ball lift device (2F) + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as a turbine that drives the liquid metal (2E) . タービン翼断面(4C)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal with the increasing ball lift device (2F) + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as a turbine that accelerates and drives the liquid metal (2E) . タービン翼断面(4D)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal with the increasing ball lift device (2F) + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as a turbine that accelerates and drives the liquid metal (2E) . タービン翼断面(4E)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in the rotating direction to drive acceleration of mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal with the increasing ball lift device (2F) + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as a turbine that accelerates and drives the liquid metal (2E) . タービン翼断面(4F)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines in the rotational direction to accelerate the mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal with the increasing ball lift device (2F) + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as a turbine that accelerates and drives the liquid metal (2E) . タービン翼断面(4A)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 16 times turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to drive mercury accelerated downward + various ships as rotational force Driven by jet propulsion force + Increased and saved ball lift device (2F) uses and saves liquid metal + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine that drives liquid metal by accelerated rolling contact. タービン翼断面(4B)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Driven by jet propulsion force + Increased and saved ball lift device (2F) uses and saves liquid metal + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine that drives liquid metal by accelerated rolling contact. タービン翼断面(4C)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+タービンを液体タリウムを下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times the turbine 3 types of liquid metal gravity solar heat engine + driving the turbine to accelerate the liquid thallium downward + driving the various ships and rotational force and injection propulsion force + increasing sphere raising device ( 2F) Uses ascending storage of liquid metal + Acceleration by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine which makes liquid metal accelerated and contact driven. タービン翼断面(4D)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19-times turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Driven by jet propulsion force + Increased and saved ball lift device (2F) uses and saves liquid metal + Accelerates by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine as turbine that drives liquid metal by accelerated rolling contact. タービン翼断面(4E)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ビスマスを下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 20 times the turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the liquid bismuth downward + various vessels + Injecting propulsive force drive + Increased sphere lift device (2F) to save and use liquid metal + Accelerate by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine with liquid metal accelerating rolling contact drive . タービン翼断面(4F)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 21 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate the liquid zinc downwards + rotational force of various ships + Injecting driving force + Increased ball lift device (2F) to save and use liquid metal + Compressed air calorie, acceleration by mass and gravity + Liquid metal (2E) accelerated rolling contact driving turbine and various energy storage Cycle coalescence engine. タービン翼断面(4A)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体タリウム合金を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid thallium alloy downward + rotating various ships Driven by force and jet propulsive force + Increased storage and use of liquid metal by increasing ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energies that make turbine driven by accelerated rolling contact of liquid metal (2E) Conservation cycle coalescence organization. タービン翼断面(4B)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛合金を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 23 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotation direction to drive the liquid zinc alloy downward + rotating various ships Driven by force and jet propulsive force + Increased storage and use of liquid metal by increasing ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energies that make turbine driven by accelerated rolling contact of liquid metal (2E) Conservation cycle coalescence organization. タービン翼断面(4C)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ガリウム合金を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid gallium alloy to accelerate downward + rotating various ships Driven by force and jet propulsive force + Increased storage and use of liquid metal by increasing ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energies that make turbine driven by accelerated rolling contact of liquid metal (2E) Conservation cycle coalescence organization. タービン翼断面(4D)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive the liquid lead alloy downward and rotate various ships Driven by force and jet propulsive force + Increased storage and use of liquid metal by increasing ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various energies that make turbine driven by accelerated rolling contact of liquid metal (2E) Conservation cycle coalescence organization. タービン翼断面(4E)を2〜25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 2 to 25 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotation direction to accelerate liquid lead alloy downward + various ships + Rotating force and jet propulsion driving + Increased sphere rising device (2F) to save and use liquid metal + Accelerate by compressed air calorie, mass and gravity + Turbine to drive liquid metal by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4F)を2〜25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 2 to 25 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotation direction to drive liquid lead alloy downward + various ships + Rotating force and jet propulsion driving + Increased sphere rising device (2F) to save and use liquid metal + Accelerate by compressed air calorie, mass and gravity + Turbine to drive liquid metal by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4A)を2〜25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 2 to 25 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction, liquid lead alloy is accelerated downward + various ships + Rotating force and jet propulsion driving + Increased sphere rising device (2F) to save and use liquid metal + Accelerate by compressed air calorie, mass and gravity + Turbine to drive liquid metal by compressed air calorie and mass Various energy conservation cycle coalescence engine. タービン翼断面(4B)を2〜25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 2 to 25 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction to drive mercury downward and rotate various ships Driven by force and jet propulsive force + Increased storage and use of liquid metal by increasing ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various types of turbines driven by accelerated acceleration of liquid metal by calorie and mass of compressed air Energy conservation cycle coalescence engine. タービン翼断面(4C)を2〜25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 2 to 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotation direction to drive mercury accelerated downward + rotating various ships Driven by force and jet propulsive force + Increased storage and use of liquid metal by increasing ball lift device (2F) + Acceleration by compressed air calorie, mass and gravity + Various types of turbines driven by accelerated acceleration of liquid metal by calorie and mass of compressed air Energy conservation cycle coalescence engine. タービン翼断面(4D)を2〜25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量に分割保存した圧力等で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 2 to 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive mercury downward and rotate various ships Power and injection driving force drive + Increased sphere rising device (2F) to save and use liquid metal + Combined engine of various energy storage cycles as a turbine that is accelerated and driven by pressure etc. divided and stored in compressed air calorie and mass. タービン翼断面(4E)を2〜25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量に分割保存した圧力等で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 2 to 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction to accelerate mercury downward + rotate various ships Power and injection driving force drive + Increased sphere rising device (2F) to save and use liquid metal + Combined engine of various energy storage cycles as a turbine that is accelerated and driven by pressure etc. divided and stored in compressed air calorie and mass. タービン翼断面(4F)を2〜25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量に分割保存した圧力等で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 2 to 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines alternately rotating direction to accelerate mercury downward + rotate various ships Power and injection driving force drive + Increased sphere rising device (2F) to save and use liquid metal + Combined engine of various energy storage cycles as a turbine that is accelerated and driven by pressure etc. divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量に分割保存した圧力等で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Various energy storage cycle coalescing engines, which are turbines that are accelerated and driven by pressure, etc. stored separately in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量に分割保存した圧力等で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Various energy storage cycle coalescing engines, which are turbines that are accelerated and driven by pressure, etc. stored separately in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Conservation use + Compressed air calorie, acceleration by mass and gravity + Various energy storage cycle coalescing engine which is a turbine that accelerates liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Conservation and use + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engines with turbines that accelerate liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation and use + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engines that are turbines driven by accelerated rolling contact of liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Conservation use + Acceleration with compressed air calorie, mass and gravity + Various energy storage cycle coalescing engines with a liquid metal (2E) driven in accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation and use + Acceleration with compressed air calorie, mass and gravity + Various energy conservation cycle coalescing engines with a liquid metal accelerated by compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere lift device (2F) to save and use liquid metal + Compressed air calorie, mass and gravity Combined engine with various energy conservation cycles that uses a turbine that accelerates and accelerates liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+タービンを液体タリウムを下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Accelerating driving of turbine with liquid thallium downward + Heated air (28a) with intake air flow path length lens by heat pump (1G) and air heat exchanger (2X) Increasing injection propulsion output with combustion gas calorific value and mass aiming at infinity + Increased storage of liquid metal with increased sphere lift device (2F) + Accelerated with compressed air calorie, mass and gravity + Accelerated driving of liquid metal (2E) Combined engine with various energy storage cycles. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere lift device (2F) to save and use liquid metal + Compressed air calorie, mass and gravity Combined engine with various energy storage cycles that uses a turbine that accelerates and contacts liquid metal with accelerated rolling. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ビスマスを下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate liquid bismuth downward driving + heated air (28a) with suction air flow path length lens (1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere lift device (2F) to save and use liquid metal + Compressed air calorie and mass Various energy conservation cycle coalescing engines, which are turbines that accelerate by gravity and liquid metal (2E) rolls in contact with rolling. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by three types of turbines + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate the liquid zinc downward + heated air (28a) heat pump with suction air flow path length lens (1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere lift device (2F) to save and use liquid metal + Compressed air calorie and mass Various energy storage cycle coalescing engines that are accelerated by gravity + turbines that drive liquid metal with heat and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Increasing and storing liquid metal by using the rising sphere rising device (2F) + Acceleration by heat quantity, mass and gravity of compressed air + Liquid lead Various energy storage cycle coalescing engines that drive alloys with accelerated turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+より重い物質の被服タンタル合金球を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Acceleration with compressed air calorie, mass and gravity + Heavier Various energy storage cycle coalescence engine that drives accelerated turbulent alloy tantalum alloy balls. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+水銀を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all turbine blades that generate output + Increase and storage of liquid metal by using the rising sphere rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Mercury Various energy storage cycle combined engine driven by accelerated rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by 3 types of turbines + Equipment method to make all the power generation turbine blades + Increase and use of liquid metal by increasing ball rising device (2F) + Acceleration by heat, mass and gravity of compressed air + Liquid tin Various energy conservation cycle coalescing engines that drive the accelerated rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+重い物質のモリブデン鋳鉄球を衝撃低減手段と共に加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Increase and storage of liquid metal by using the rising sphere riser (2F) + Acceleration with compressed air calorie, mass and gravity + Heavy substances Various energy storage cycle coalescing engine that drives an accelerated turbine of molybdenum cast iron balls with impact reduction means. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体インジウム合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + liquid indium alloy to accelerate turbine drive. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体インジウム合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + liquid indium alloy to accelerate turbine drive. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+水銀を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + merging mercury, various energy storage cycle coalescing engine driven by contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+より液体カドミウム合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + cadmium liquid accelerating rolling and contact turbine driving various energy storage cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+重い物質の被覆白金球を衝撃低減手段と共に加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating with gravity + Heavier material coated platinum spheres and various energy conservation cycle coalescing engines that drive an acceleration turbine with impact reduction means. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体ビスマス合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Various energy storage cycle coalescing engine that uses liquid ball ascending and storing with increasing ball rising device (2F) + acceleration by heat quantity, mass and gravity of compressed air + acceleration turbine driving liquid bismuth alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体ビスマス合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Various energy storage cycle coalescing engine that uses liquid ball ascending and storing with increasing ball rising device (2F) + acceleration by heat quantity, mass and gravity of compressed air + acceleration turbine driving liquid bismuth alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid energy is stored in the rising ball rising device (2F). + Accelerated by compressed air calorie, mass and gravity. + Various energy storage cycle coalescing engines that drive liquid lead alloy by accelerated rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + The energy storage cycle coalescing engine that uses liquid ball ascending and storage with the sphere rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration of liquid tin alloy and rolling turbine contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + An energy storage cycle coalescing engine that uses liquid ball ascending and storing with an increasing sphere rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration turbine driving liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine that drives liquid tin alloy with accelerated turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine that drives liquid tin alloy with accelerated turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine that drives liquid lead alloy by accelerating rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine that drives liquid lead alloy by accelerating rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+重い物質の被覆銀合金球を衝撃低減手段と共に加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine that drives heavy material coated silver alloy sphere with impact reduction means and acceleration turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + liquid tin alloy accelerating turbine drive. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + liquid tin alloy accelerating turbine drive. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating with gravity + liquid lead alloy accelerating rolling contact turbine driving various energy storage cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating with gravity + liquid lead alloy accelerating rolling contact turbine driving various energy storage cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + liquid lead alloy accelerating turbine driving various energy storage cycle coalescing engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Increasing and storing liquid metal by using the rising sphere rising device (2F) + Acceleration by heat quantity, mass and gravity of compressed air + Liquid lead Various energy storage cycle coalescing engines that drive alloys with accelerated turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Increasing and storing liquid metal by using the rising sphere rising device (2F) + Acceleration by heat quantity, mass and gravity of compressed air + Liquid lead Various energy storage cycle coalescing engines that drive alloys with accelerated turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by 3 types of turbines + Equipment method to make all the power generation turbine blades + Increase and use of liquid metal by increasing ball rising device (2F) + Acceleration by heat, mass and gravity of compressed air + Liquid tin Various energy conservation cycle coalescing engines that drive the accelerated rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Increasing and storing liquid metal by using the rising sphere rising device (2F) + Acceleration by heat quantity, mass and gravity of compressed air + Liquid lead Various energy conservation cycle coalescing engines that drive the accelerated rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Increasing and storing liquid metal by using the rising sphere rising device (2F) + Acceleration by heat quantity, mass and gravity of compressed air + Liquid lead Various energy storage cycle coalescing engines that drive alloys with accelerated turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + liquid lead alloy accelerating turbine driving various energy storage cycle coalescing engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+水銀を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + mercury accelerating turbine driving various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体カドミウム合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity + liquid cadmium alloy accelerating rolling contact turbine driving various energy storage cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体カドミウム合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity + liquid cadmium alloy accelerating rolling contact turbine driving various energy storage cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + liquid lead alloy accelerating turbine driving various energy storage cycle coalescing engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + An energy storage cycle coalescing engine that uses liquid ball ascending and storing with an increasing sphere rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration turbine driving liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + An energy storage cycle coalescing engine that uses liquid ball ascending and storing with an increasing sphere rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration turbine driving liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + The energy storage cycle coalescing engine that uses liquid ball ascending and storage with the sphere rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration of liquid tin alloy and rolling turbine contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + The energy storage cycle coalescing engine that uses liquid ball ascending and storage with the sphere rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration of liquid tin alloy and rolling turbine contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+水銀を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + An energy storage cycle coalescence engine that uses liquid ball ascending and storing with an increasing ball rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration of mercury. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine that drives liquid lead alloy with accelerated turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engines that drive liquid lead alloys with an accelerated turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine that drives liquid lead alloy by accelerating rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体カドミウムを加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Accelerated rolling of cadmium liquid and various energy storage cycle coalescing engines driven by a contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine that drives liquid lead alloy with accelerated turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere lift device (2F) to save and use liquid metal + Compressed air calorie, mass and gravity Combined engine with various energy conservation cycles that uses a turbine that accelerates and accelerates liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ビスマスを下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate liquid bismuth downward driving + heated air (28a) with suction air flow path length lens (1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere lift device (2F) to save and use liquid metal + Compressed air calorie and mass Various energy storage cycle coalescing engines that are turbines that accelerate by gravity + liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by three types of turbines + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate the liquid zinc downward + heated air (28a) heat pump with suction air flow path length lens (1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere lift device (2F) to save and use liquid metal + Compressed air calorie and mass Combined engine with various energy storage cycles, which is a turbine that accelerates by gravity and accelerates and contacts liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体タリウム合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid thallium alloy downward + heated air (28a) by intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity + liquid energy (2E) is a turbine that accelerates rolling contact with various energy storage cycle coalescing engines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid zinc alloy downward + heated air (28a) with suction air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Combined with various energy storage cycle engines that are accelerated by gravity and a turbine that accelerates liquid metal with compressed heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+水銀を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all turbine blades that generate output + Increase and storage of liquid metal by using the rising sphere rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Mercury Various energy storage cycle combined engine driven by an acceleration turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by 3 types of turbines + Equipment method to make all the power generation turbine blades + Increase and use of liquid metal by increasing ball rising device (2F) + Acceleration by heat, mass and gravity of compressed air + Liquid tin Various energy storage cycle coalescing engines that drive the turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Increasing and storing liquid metal by using the rising sphere rising device (2F) + Acceleration by heat quantity, mass and gravity of compressed air + Liquid lead Combined engine with various energy conservation cycles that drive alloy rolling turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Increasing and storing liquid metal by using the rising sphere rising device (2F) + Acceleration by heat quantity, mass and gravity of compressed air + Liquid lead Various energy conservation cycle coalescing engines that drive the accelerated rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+水銀を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all turbine blades that generate output + Increase and storage of liquid metal by using the rising sphere rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Mercury Various energy storage cycle combined engine driven by an acceleration turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+水銀を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + mercury accelerating turbine driving various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+より液体カドミウム合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating with gravity + more energy storage cycle coalescing engine that drives liquid cadmium alloy with accelerated turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating with gravity + liquid lead alloy accelerating rolling contact turbine driving various energy storage cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体ビスマス合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Combined with various energy storage cycle engines that accelerate by accelerating with gravity + accelerating rolling bismuth alloy and rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+重い物質の被覆金球を衝撃低減手段と共に加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating with gravity + Heavy energy coated cycle engine that drives heavy material coated gold sphere with acceleration means and acceleration turbine drive. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + An energy storage cycle coalescing engine that uses liquid ball ascending and storing with an increasing sphere rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration turbine driving liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + An energy storage cycle coalescing engine that uses liquid ball ascending and storing with an increasing ball rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration turbine driving liquid tin alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid energy is stored in the rising ball rising device (2F). + Accelerated by compressed air calorie, mass and gravity. + Various energy storage cycle coalescing engines that drive liquid lead alloy by accelerated rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + The energy storage cycle coalescing engine that uses liquid ball ascending and storage with the sphere rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration of liquid tin alloy and rolling turbine contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + An energy storage cycle coalescing engine that uses liquid ball ascending and storing with an increasing sphere rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration turbine driving liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine that drives liquid lead alloy with accelerated turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine that drives liquid lead alloy with accelerated turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体カドミウムを加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Accelerated rolling of cadmium liquid and various energy storage cycle coalescing engines driven by a contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体インジウムを加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine that drives liquid indium by accelerated rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体ガリウムを加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Combined engine of various energy conservation cycles that drive liquid gallium with an accelerated turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ビスマスを下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate liquid bismuth downward driving + heated air (28a) with suction air flow path length lens (1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere lift device (2F) to save and use liquid metal + Compressed air calorie and mass Combined engine with various energy storage cycles that uses a turbine that accelerates gravity and accelerates liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by three types of turbines + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate the liquid zinc downward + heated air (28a) heat pump with suction air flow path length lens (1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere lift device (2F) to save and use liquid metal + Compressed air calorie and mass Various energy storage cycle coalescing engines that are turbines that accelerate by gravity + liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体タリウム合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to drive acceleration of liquid thallium alloy downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Combined with various energy conservation cycle engines that are accelerated by gravity and a turbine that drives liquid metal in accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid zinc alloy downward + heated air (28a) with suction air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity + liquid energy (2E) is a turbine that accelerates rolling contact with various energy storage cycle coalescing engines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ガリウム合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid gallium alloy downward + heated air (28a) with suction air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Combined with various energy storage cycle engines that are accelerated by gravity and a turbine that accelerates liquid metal with compressed heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by 3 types of turbines + Equipment method to make all the power generation turbine blades + Increase and use of liquid metal by increasing ball rising device (2F) + Acceleration by heat, mass and gravity of compressed air + Liquid tin Various energy storage cycle coalescing engines that drive the turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Increasing and storing liquid metal by using the rising sphere rising device (2F) + Acceleration by heat quantity, mass and gravity of compressed air + Liquid lead Various energy storage cycle coalescing engines that drive the turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体インジウム合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Increase and storage of liquid metal with increasing sphere rising device (2F) + Acceleration with compressed air calorie, mass and gravity + Liquid indium Combined engine with various energy conservation cycles that drive alloy rolling turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体インジウム合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Increase and storage of liquid metal with increasing sphere rising device (2F) + Acceleration with compressed air calorie, mass and gravity + Liquid indium Combined engine with various energy conservation cycles that drive alloy rolling turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体インジウム合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Increase and storage of liquid metal with increasing sphere rising device (2F) + Acceleration with compressed air calorie, mass and gravity + Liquid indium Various energy storage cycle coalescing engines that drive alloys with accelerated turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体カドミウム合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + liquid cadmium alloy accelerating turbine driving various energy storage cycle coalescing engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体カドミウム合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + liquid cadmium alloy accelerating turbine driving various energy storage cycle coalescing engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体ビスマス合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Combined with various energy storage cycle engines that accelerate by accelerating with gravity + accelerating rolling bismuth alloy and rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体ビスマス合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Combined with various energy storage cycle engines that accelerate by accelerating with gravity + accelerating rolling bismuth alloy and rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体ビスマス合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + liquid bismuth alloy accelerating turbine drive various energy storage cycle coalescence engine タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + An energy storage cycle coalescing engine that uses liquid ball ascending and storing with an increasing ball rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration turbine driving liquid tin alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + An energy storage cycle coalescing engine that uses liquid ball ascending and storing with an increasing ball rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration turbine driving liquid tin alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + The energy storage cycle coalescing engine that uses liquid ball ascending and storage with the sphere rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration of liquid tin alloy and rolling turbine contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + The energy storage cycle coalescing engine that uses liquid ball ascending and storage with the sphere rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration of liquid tin alloy and rolling turbine contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + An energy storage cycle coalescing engine that uses liquid ball ascending and storing with an increasing ball rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration turbine driving liquid tin alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+過熱蒸気速度や燃焼ガス速度で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration at superheated steam speed and combustion gas speed + Various energy storage cycle coalescence engine that drives liquid lead alloy with accelerated turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+過熱蒸気速度や燃焼ガス速度で加速+液体カドミウムを加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration at superheated steam speed or combustion gas speed + Various energy storage cycle coalescing engines that drive liquid cadmium in an accelerated turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+過熱蒸気速度や燃焼ガス速度で加速+液体錫合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated at superheated steam speed and combustion gas speed + Various energy storage cycle coalescing engines that drive liquid tin alloy with accelerated rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine that drives liquid tin alloy with accelerated rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine that drives liquid lead alloy with accelerated turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by three types of turbines + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate the liquid zinc downward + heated air (28a) heat pump with suction air flow path length lens (1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere lift device (2F) to save and use liquid metal + Compressed air calorie and mass Combined engine with various energy storage cycles that uses a turbine that accelerates gravity and accelerates liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体タリウム合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to drive acceleration of liquid thallium alloy downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating with gravity + various energy storage cycle coalescing engine with a liquid metal (2E) accelerated drive. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid zinc alloy downward + heated air (28a) with suction air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Combined with various energy conservation cycle engines that are accelerated by gravity and a turbine that drives liquid metal in accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ガリウム合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid gallium alloy downward + heated air (28a) with suction air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity + liquid energy (2E) is a turbine that accelerates rolling contact with various energy storage cycle coalescing engines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Combined with various energy storage cycle engines that are accelerated by gravity and a turbine that accelerates liquid metal with compressed heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Increasing and storing liquid metal by using the rising sphere rising device (2F) + Acceleration by heat quantity, mass and gravity of compressed air + Liquid lead Various energy storage cycle coalescing engines that drive alloys with accelerated turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all turbine blades generating power + Increase and storage of liquid metal with increasing ball rising device (2F) + Acceleration with compressed air calorie, mass and gravity + Liquid metal Various energy storage cycle coalescing engines, which are turbines that are accelerated by heat and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Increasing and storing liquid metal by using the rising sphere rising device (2F) + Acceleration by heat quantity, mass and gravity of compressed air + Liquid lead Combined engine with various energy conservation cycles that drive alloy rolling turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+水銀を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all turbine blades that generate output + Increase and storage of liquid metal by using the rising sphere rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Mercury Various energy storage cycle combined engine driven by accelerated rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Increasing and storing liquid metal by using the rising sphere rising device (2F) + Acceleration by heat quantity, mass and gravity of compressed air + Liquid lead Various energy storage cycle coalescing engines that drive alloys with accelerated turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + liquid lead alloy accelerating turbine driving various energy storage cycle coalescing engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体ビスマス合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + liquid bismuth alloy accelerating turbine drive various energy storage cycle coalescing engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating with gravity + liquid lead alloy accelerating rolling contact turbine driving various energy storage cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating with gravity + liquid lead alloy accelerating rolling contact turbine driving various energy storage cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + liquid lead alloy accelerating turbine driving various energy storage cycle coalescing engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + An energy storage cycle coalescing engine that uses liquid ball ascending and storing with an increasing sphere rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration turbine driving liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + An energy storage cycle coalescing engine that uses liquid ball ascending and storing with an increasing ball rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration turbine driving liquid tin alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid energy is stored in the rising ball rising device (2F). + Accelerated by compressed air calorie, mass and gravity. + Various energy storage cycle coalescing engines that drive liquid lead alloy by accelerated rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid energy is stored in the rising ball rising device (2F). + Accelerated by compressed air calorie, mass and gravity. + Various energy storage cycle coalescing engines that drive liquid lead alloy by accelerated rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + An energy storage cycle coalescing engine that uses liquid ball ascending and storing with an increasing sphere rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration turbine driving liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+過熱蒸気速度や燃焼ガス速度で加速+液体カドミウムを加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration at superheated steam speed or combustion gas speed + Various energy storage cycle coalescing engines that drive liquid cadmium in an accelerated turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体インジウムを加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Combined engine of various energy conservation cycles that drive liquid indium to accelerate turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine that drives liquid lead alloy by accelerating rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine that drives liquid lead alloy by accelerating rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine that drives liquid lead alloy with accelerated turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体タリウム合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to drive acceleration of liquid thallium alloy downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Combined with various energy storage cycle engines that are accelerated by gravity and a turbine that accelerates liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid zinc alloy downward + heated air (28a) with suction air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating with gravity + various energy storage cycle coalescing engine with a liquid metal (2E) accelerated drive. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ガリウム合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid gallium alloy downward + heated air (28a) with suction air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Combined with various energy conservation cycle engines that are accelerated by gravity and a turbine that drives liquid metal in accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity + liquid energy (2E) is a turbine that accelerates rolling contact with various energy storage cycle coalescing engines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Combined with various energy storage cycle engines that are accelerated by gravity and a turbine that accelerates liquid metal with compressed heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体インジウム合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Increase and storage of liquid metal with increasing sphere rising device (2F) + Acceleration with compressed air calorie, mass and gravity + Liquid indium Various energy storage cycle coalescing engines that drive alloys with accelerated turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体インジウム合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Increase and storage of liquid metal with increasing sphere rising device (2F) + Acceleration with compressed air calorie, mass and gravity + Liquid indium Various energy storage cycle coalescing engines that drive alloys with accelerated turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+水銀を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all turbine blades that generate output + Increase and storage of liquid metal by using the rising sphere rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Mercury Various energy storage cycle combined engine driven by accelerated rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+より液体カドミウム合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by 3 types of turbines + Equipment method to make all the power generation turbine blades + Increase and storage of liquid metal by using the rising sphere riser (2F) + Acceleration with compressed air calorie, mass and gravity + More liquid Various energy storage cycle coalescing engines that drive cadmium alloys with accelerated rolling contact turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+重い物質の被覆白金球を衝撃低減手段と共に加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Increase and storage of liquid metal by using the rising sphere riser (2F) + Acceleration with compressed air calorie, mass and gravity + Heavy substances Various energy storage cycle coalescing engines that drive the coated platinum spheres together with the impact reduction means and the acceleration turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体ビスマス合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + liquid bismuth alloy accelerating turbine drive various energy storage cycle coalescing engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体ビスマス合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + liquid bismuth alloy accelerating turbine drive various energy storage cycle coalescence engine タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating with gravity + liquid lead alloy accelerating rolling contact turbine driving various energy storage cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating with gravity + liquid tin alloy accelerating rolling contact turbine driving various energy storage cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + liquid lead alloy accelerating turbine driving various energy storage cycle coalescing engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + An energy storage cycle coalescing engine that uses liquid ball ascending and storing with an increasing ball rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration turbine driving liquid tin alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + An energy storage cycle coalescing engine that uses liquid ball ascending and storing with an increasing ball rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration turbine driving liquid tin alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid energy is stored in the rising ball rising device (2F). + Accelerated by compressed air calorie, mass and gravity. + Various energy storage cycle coalescing engines that drive liquid lead alloy by accelerated rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid energy is stored in the rising ball rising device (2F). + Accelerated by compressed air calorie, mass and gravity. + Various energy storage cycle coalescing engines that drive liquid lead alloy by accelerated rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + An energy storage cycle coalescing engine that uses liquid ball ascending and storing with an increasing sphere rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration turbine driving liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+過熱蒸気速度や燃焼ガス速度で加速+液体錫合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration at superheated steam speed or combustion gas speed + Various energy storage cycle coalescence engine that drives liquid tin alloy with accelerated turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine that drives liquid tin alloy with accelerated turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine that drives liquid lead alloy by accelerating rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine that drives liquid lead alloy by accelerating rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine that drives liquid lead alloy with accelerated turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + liquid lead alloy accelerating turbine driving various energy storage cycle coalescing engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + liquid lead alloy accelerating turbine driving various energy storage cycle coalescing engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating with gravity + Accelerated rolling of liquid tin. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating with gravity + liquid lead accelerating rolling contact turbine driving various energy storage cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + liquid lead alloy accelerating turbine driving various energy storage cycle coalescing engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Increasing and storing liquid metal by using the rising sphere rising device (2F) + Acceleration by heat quantity, mass and gravity of compressed air + Liquid lead Various energy storage cycle coalescing engines that drive alloys with accelerated turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+水銀を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all turbine blades that generate output + Increase and storage of liquid metal by using the rising sphere rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Mercury Various energy storage cycle combined engine driven by an acceleration turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体カドミウム合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by 3 types of turbines + Equipment method to make all the power generation turbine blades + Increase and use of liquid metal by increasing sphere rising device (2F) + Acceleration by heat quantity, mass and gravity of compressed air + Liquid cadmium Combined engine with various energy conservation cycles that drive alloy rolling turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体カドミウム合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by 3 types of turbines + Equipment method to make all the power generation turbine blades + Increase and use of liquid metal by increasing sphere rising device (2F) + Acceleration by heat quantity, mass and gravity of compressed air + Liquid cadmium Combined engine with various energy conservation cycles that drive alloy rolling turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Increasing and storing liquid metal by using the rising sphere rising device (2F) + Acceleration by heat quantity, mass and gravity of compressed air + Liquid lead Various energy storage cycle coalescing engines that drive alloys with accelerated turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + liquid lead alloy accelerating turbine driving various energy storage cycle coalescing engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + liquid lead alloy accelerating turbine driving various energy storage cycle coalescing engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating with gravity + liquid tin alloy accelerating rolling contact turbine driving various energy storage cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating with gravity + liquid tin alloy accelerating rolling contact turbine driving various energy storage cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+水銀を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + mercury accelerating turbine driving various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + An energy storage cycle coalescing engine that uses liquid ball ascending and storing with an increasing sphere rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration turbine driving liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + An energy storage cycle coalescing engine that uses liquid ball ascending and storing with an increasing sphere rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration turbine driving liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid energy is stored in the rising ball rising device (2F). + Accelerated by compressed air calorie, mass and gravity. + Various energy storage cycle coalescing engines that drive liquid lead alloy by accelerated rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体カドミウムを加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid energy is stored in the rising ball ascending device (2F) + Accelerated by compressed air calorie, mass and gravity + Liquid cadmium accelerated rolling contact turbine driven various energy storage cycle coalescing engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + An energy storage cycle coalescing engine that uses liquid ball ascending and storing with an increasing sphere rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration turbine driving liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine that drives liquid lead alloy with accelerated turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine that drives liquid lead alloy with accelerated turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine that drives liquid lead alloy by accelerating rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine that drives liquid lead alloy by accelerating rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerated by compressed air calorie, mass and gravity + Various energy storage cycle coalescing engine that drives liquid lead alloy with accelerated turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ガリウム合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid gallium alloy downward + heated air (28a) with suction air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Combined with various energy storage cycle engines that are accelerated by gravity and a turbine that accelerates liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating with gravity + various energy storage cycle coalescing engine with a liquid metal (2E) accelerated drive. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Combined with various energy conservation cycle engines that are accelerated by gravity and a turbine that drives liquid metal in accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity + liquid energy (2E) is a turbine that accelerates rolling contact with various energy storage cycle coalescing engines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Combined with various energy storage cycle engines that are accelerated by gravity and a turbine that accelerates liquid metal with compressed heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+水銀を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all turbine blades that generate output + Increase and storage of liquid metal by using the rising sphere rising device (2F) + Acceleration by compressed air calorie, mass and gravity + Mercury Various energy storage cycle combined engine driven by an acceleration turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+より液体カドミウム合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by 3 types of turbines + Equipment method to make all the power generation turbine blades + Increase and storage of liquid metal by using the rising sphere riser (2F) + Acceleration with compressed air calorie, mass and gravity + More liquid Various energy storage cycle coalescing engine that drives cadmium alloy with accelerated turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Increasing and storing liquid metal by using the rising sphere rising device (2F) + Acceleration by heat quantity, mass and gravity of compressed air + Liquid lead Combined engine with various energy conservation cycles that drive alloy rolling turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体ビスマス合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Increase and storage of liquid metal with increasing sphere rising device (2F) + Acceleration with compressed air calorie, mass and gravity + Liquid bismuth Combined engine with various energy conservation cycles that drive alloy rolling turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+重い物質の被覆金球を衝撃低減手段と共に加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Increase and storage of liquid metal by using the rising sphere riser (2F) + Acceleration with compressed air calorie, mass and gravity + Heavy substances Various energy storage cycle coalescing engines that drive the accelerating turbine with the impact-reducing means and the coated gold balls. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + liquid lead alloy accelerating turbine driving various energy storage cycle coalescing engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + liquid tin alloy accelerating turbine drive. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating with gravity + liquid lead alloy accelerating rolling contact turbine driving various energy storage cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体錫合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating with gravity + liquid tin alloy accelerating rolling contact turbine driving various energy storage cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increasing ball lift device (2F) + Use heat and mass of compressed air Accelerating by gravity and accelerating + liquid lead alloy accelerating turbine driving various energy storage cycle coalescing engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + An energy storage cycle coalescing engine that uses liquid ball ascending and storing with an increasing sphere rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration turbine driving liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + An energy storage cycle coalescing engine that uses liquid ball ascending and storing with an increasing sphere rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration turbine driving liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体カドミウムを加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid energy is stored in the rising ball ascending device (2F) + Accelerated by compressed air calorie, mass and gravity + Liquid cadmium accelerated rolling contact turbine driven various energy storage cycle coalescing engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体インジウムを加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid energy is stored in the rising ball rising device (2F). + Accelerated by compressed air calorie, mass and gravity + Accelerated rolling of liquid indium. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量と質量と重力で加速+液体ガリウムを加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + An energy storage cycle coalescence engine that uses liquid ball ascending and storing with the sphere rising device (2F) + acceleration with compressed air calorie, mass and gravity + acceleration turbine driving liquid gallium. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorific pressure and mass pressure, respectively, which are compressed heat recovery divided and stored with intake air flow path length lens + Accelerated turbine drive with liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorific pressure and mass pressure, respectively, which are compressed heat recovery divided and stored with intake air flow path length lens + Accelerated turbine drive with liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine for various energy storage cycles to drive turbines with combustion gas calorie pressure and mass pressure, respectively, with compressed heat recovery divided and stored with intake air flow length lens + Accelerated rolling contact turbine with liquid lead alloy . タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine for various energy storage cycles to drive turbines with combustion gas calorie pressure and mass pressure, respectively, with compressed heat recovery divided and stored with intake air flow length lens + Accelerated rolling contact turbine with liquid lead alloy . タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+水銀を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorie pressure and mass pressure, respectively, with compressed heat recovery divided and stored by intake air flow path length lens + Acceleration turbine drive of mercury. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体錫を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Increase and store liquid metal in the rising sphere rising device (2F) + use the intake air flow path length lens to heat the compressed air and separate and store the compressed air to drive the turbine with the combustion gas calorific pressure and mass pressure + liquid tin Various energy storage cycle combined engine driven by an acceleration turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Increase and store liquid metal in the rising ball lift device (2F) + use the intake air passage length lens to heat the compressed air and separate and store the compressed air to drive the turbine with the combustion gas calorific pressure and mass pressure + liquid lead Various energy storage cycle combined engine driven by an acceleration turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体インジウム合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Heated air is compressed and recovered by the intake air flow length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively + Liquid indium alloy Various energy conservation cycle coalescing engines that drive the accelerated rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体インジウム合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Heated air is compressed and recovered by the intake air flow length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively + Liquid indium alloy Various energy conservation cycle coalescing engines that drive the accelerated rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体インジウム合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Heated air is compressed and recovered by the intake air flow length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively + Liquid indium alloy Various energy storage cycle coalescing engines that drive the turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体カドミウム合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising ball lift device (2F) + Heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively + Liquid cadmium alloy Various energy storage cycle coalescing engines that drive the turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+より重い物質の被服白金球を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + The liquid metal is lifted and stored in the rising ball lift device (2F) + the heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively + heavier material Various energy conservation cycle coalescing engines that drive the accelerating turbine of the coated platinum ball. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体ビスマス合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored using the rising ball lift device (2F) + Heated air is compressed and recovered by the intake air flow length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively + Liquid bismuth alloy Various energy conservation cycle coalescing engines that drive the accelerated rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+水銀を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + The liquid metal is lifted and stored in the rising ball lift device (2F) + heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively + mercury is accelerated Various energy storage cycle coalescing engine driven by rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体ビスマス合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored using the rising ball lift device (2F) + Heated air is compressed and recovered by the intake air flow length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively + Liquid bismuth alloy Various energy storage cycle coalescing engines that drive the turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Ascending and using the liquid metal + The intake air flow path length lens is used to drive the turbine with the combustion gas calorific pressure and mass pressure obtained by separately storing the compressed air by the compressed heat recovery + Turbine for accelerating the liquid metal Various energy conservation cycle coalescing engines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens heats compressed air to separate and store compressed heat Drives turbine with combustion gas calorie pressure and mass pressure + Accelerates liquid metal (2E) Various energy storage cycle coalescing engine as a driving turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + intake air flow path length lens heats compressed air to separate and store compressed heat, turbines are driven by combustion gas calorie pressure and mass pressure, respectively + liquid metal is accelerated rolling contact drive Combined engine with various energy storage cycles. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens heats compressed air to separate and store compressed heat Drives turbine with combustion gas calorie pressure and mass pressure + Accelerates liquid metal (2E) Various energy storage cycle coalescing engines that are rolling contact driven turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion In (2F), the liquid metal is used for ascending storage + heated air is compressed and recovered by the intake air passage length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. + The liquid metal is compressed air calorie Various energy storage cycle coalescing engines that are turbines driven by mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Ascending and using the liquid metal + The intake air flow path length lens is used to drive the turbine with the combustion gas calorific pressure and mass pressure obtained by separately storing the compressed air by the compressed heat recovery + Turbine for accelerating the liquid metal Various energy conservation cycle coalescing engines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Ascending and using the liquid metal + The intake air flow path length lens is used to drive the turbine with the combustion gas calorific pressure and mass pressure obtained by separately storing the compressed air by the compressed heat recovery + Turbine for accelerating the liquid metal Various energy conservation cycle coalescing engines. タービン3種類駆動の液体金属重力太陽熱エンジン+タービンを液体タリウムを下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by 3 types of turbines + Drives turbines to accelerate liquid thallium downwards + Drives various ships to drive rotational force and propulsion propulsion force + Increases and stores liquid metal with increasing ball rising device (2F) + Combined engine with various energy storage cycles that drives turbines with calorific pressure and mass pressure of combustion gas obtained by dividing and storing compressed heat with compressed intake air flow length lens + acceleration driving of liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Ascending and using the liquid metal + The intake air flow path length lens is used to drive the turbine with the combustion gas calorific pressure and mass pressure obtained by separately storing the compressed air by the compressed heat recovery + Turbine for accelerating the liquid metal Various energy conservation cycle coalescing engines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ビスマスを下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotating turbines rotating in the direction of rotation to accelerate liquid bismuth downwards + driving various ships and rotational propulsion and propulsion propulsion + rising sphere The device (2F) uses the liquid metal ascending and storing. + The intake air passage length lens is used to heat the compressed air. The turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. + The liquid metal is accelerated. Combined engine with various energy storage cycles as a turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid zinc downwards + driving various types of ships to drive rotational force and propulsion propulsion + rising sphere Use the device (2F) to store the liquid metal + Use the intake air flow path length lens to heat the compressed air and store the compressed heat, and separately drive the turbine with the combustion gas calorific pressure and mass pressure + Liquid metal (2E) Various energy storage cycle coalescing engines with accelerated turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体タリウム合金を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar engine + horizontal axis (1h) with turbines rotating in rotation direction to accelerate the liquid thallium alloy downward + drive various kinds of ships to drive rotational force and propulsion propulsion + increase ball Liquid metal is lifted and stored in the ascending device (2F) + Heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively + Liquid metal (2E) Various energy conservation cycle coalescing engines that are turbines that are accelerated. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛合金を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid zinc alloy downward + to drive various ships + rotational force and jet propulsive force + increasing sphere Liquid metal is lifted and stored in the ascending device (2F) + Heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively + Liquid metal (2E) Various energy conservation cycle coalescing engines that are turbines that are accelerated. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ガリウム合金を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar heat engine + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to drive liquid gallium alloy downwards + Drive various types of ships to drive rotational force and injection propulsion force + Increase ball Liquid metal is lifted and stored in the ascending device (2F) + Heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively + Liquid metal (2E) Various energy conservation cycle coalescing engines that are turbines that are accelerated. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar heat engine + A horizontal turbine (1h) with rotating turbines in alternating rotation direction to drive liquid lead alloy downwards + Drive various types of ships to drive rotational force and jet propulsion force + Increase ball Liquid metal is lifted and stored in the ascending device (2F) + Heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively + Liquid metal (2E) Various energy conservation cycle coalescing engines that are turbines that are accelerated. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar heat engine + A horizontal turbine (1h) with rotating turbines in alternating rotation direction to drive liquid lead alloy downwards + Drive various types of ships to drive rotational force and jet propulsion force + Increase ball Liquid metal is lifted and stored in the ascending device (2F) + Heated air is compressed and recovered by the intake air flow path length lens The turbine is driven by the combustion gas calorific pressure and mass pressure, respectively + Liquid metal is accelerated and rolled Various energy storage cycle coalescing engines with contact driven turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar heat engine + A horizontal turbine (1h) with rotating turbines in alternating rotation direction to drive liquid lead alloy downwards + Drive various types of ships to drive rotational force and jet propulsion force + Increase ball Liquid metal is lifted and stored in the ascending device (2F) + Heated air is compressed and recovered by the intake air flow path length lens The turbine is driven by the combustion gas calorific pressure and mass pressure, respectively + Liquid metal is accelerated and rolled Various energy storage cycle coalescing engines with contact driven turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar heat engine + A horizontal turbine (1h) with rotating turbines in alternating rotation direction to drive liquid lead alloy downwards + Drive various types of ships to drive rotational force and jet propulsion force + Increase ball Liquid metal is lifted and stored in the ascending device (2F) + Heated air is compressed and recovered by the intake air flow path length lens The turbine is driven by the combustion gas calorific pressure and mass pressure, respectively + Liquid metal is accelerated and rolled Various energy storage cycle coalescing engines with contact driven turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + intake air flow path length lens heats compressed air to separate and store compressed heat, turbines are driven by combustion gas calorie pressure and mass pressure, respectively + liquid metal is accelerated rolling contact drive Combined engine with various energy storage cycles. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + intake air flow path length lens heats compressed air to separate and store compressed heat, turbines are driven by combustion gas calorie pressure and mass pressure, respectively + liquid metal is accelerated rolling contact drive Combined engine with various energy storage cycles. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens heats compressed air to separate and store compressed heat Drives turbine with combustion gas calorie pressure and mass pressure + Accelerates liquid metal (2E) Various energy storage cycle coalescing engines that are rolling contact driven turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens heats compressed air to separate and store compressed heat Drives turbine with combustion gas calorie pressure and mass pressure + Accelerates liquid metal (2E) Various energy storage cycle coalescing engines that are rolling contact driven turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens heats compressed air to separate and store compressed heat Drives turbine with combustion gas calorie pressure and mass pressure + Accelerates liquid metal (2E) Various energy storage cycle coalescing engines that are rolling contact driven turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens heats compressed air to separate and store compressed heat Drives turbine with combustion gas calorie pressure and mass pressure + Accelerates liquid metal (2E) Various energy storage cycle coalescing engines that are rolling contact driven turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens heats compressed air to separate and store compressed heat Drives turbine with combustion gas calorie pressure and mass pressure + Accelerates liquid metal (2E) Various energy storage cycle coalescing engines that are rolling contact driven turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion In (2F), the liquid metal is used for ascending storage + heated air is compressed and recovered by the intake air passage length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. + The liquid metal is compressed air calorie Various energy storage cycle coalescing engines that are turbines driven by mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion In (2F), the liquid metal is used for ascending storage + heated air is compressed and recovered by the intake air passage length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. + The liquid metal is compressed air calorie Various energy storage cycle coalescing engines that are turbines driven by mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion In (2F), the liquid metal is used for ascending storage + heated air is compressed and recovered by the intake air passage length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. + The liquid metal is compressed air calorie Various energy storage cycle coalescing engines that are turbines driven by mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion In (2F), the liquid metal is used for ascending storage + heated air is compressed and recovered by the intake air passage length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. + The liquid metal is compressed air calorie Various energy storage cycle coalescing engines that are turbines driven by mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion In (2F), the liquid metal is used for ascending storage + heated air is compressed and recovered by the intake air passage length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. + The liquid metal is compressed air calorie Various energy storage cycle coalescing engines that are turbines driven by mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量速度や質量速度に分割保存した圧力等で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Ascending and using liquid metal + Various energy storage cycle coalescing engines that are turbines that are accelerated and driven by pressure or the like that is stored separately in compressed air calorie speed or mass speed. タービン3種類駆動の液体金属重力太陽熱エンジン+タービンを液体タリウムを下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量速度や質量速度に分割保存した圧力等で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by 3 types of turbines + Drives turbines to accelerate liquid thallium downwards + Drives various ships to drive rotational force and propulsion propulsion force + Increases and stores liquid metal with increasing ball rising device (2F) + Combined engine of various energy storage cycles that is a turbine that is accelerated and driven by pressure, etc. that is divided and stored into compressed air calorie velocity and mass velocity. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量速度や質量速度に分割保存した圧力等で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Ascending and using liquid metal + Various energy storage cycle coalescing engines that are turbines that are accelerated and driven by pressure or the like that is divided and stored in compressed air calorie velocity or mass velocity. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ビスマスを下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量速度や質量速度に分割保存した圧力等で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotating turbines rotating in the direction of rotation to accelerate liquid bismuth downwards + driving various ships and rotational propulsion and propulsion propulsion + rising sphere Various energy storage cycle coalescing engines that use turbines that are accelerated and driven by pressure, etc. divided and stored in compressed air calorie velocity and mass velocity. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+圧縮空気熱量速度や質量速度に分割保存した圧力等で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid zinc downwards + driving various types of ships to drive rotational force and propulsion propulsion + rising sphere Various energy storage cycle coalescing engines that use turbines that are accelerated and driven by pressure, etc. divided and stored in compressed air calorie velocity and mass velocity. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体タリウム合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to drive acceleration of liquid thallium alloy downward + heating air (28a) with intake air flow path length lens Increasing injection propulsion output with combustion gas calorific value and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + increasing head with increasing sphere raising device (2F) + liquid metal with increasing sphere raising device (2F) + Inverted air storage + Intake air flow path length lens to heat and compress compressed heat recovery Separated and stored combustion gas Calorie pressure and mass pressure to drive turbine + Liquid metal acceleration drive turbine and various energy storage cycles Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid zinc alloy downward + heated air (28a) with suction air flow path length lens Increasing injection propulsion output with combustion gas calorific value and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + increasing head with increasing sphere raising device (2F) + liquid metal with increasing sphere raising device (2F) + Incremental storage + Intake air flow path length lens Compressed heat recovery Divided and stored separately, combustion gas calorie pressure and mass pressure drive each turbine + Liquid metal (2E) turbine driven variously Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ガリウム合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid gallium alloy downward + heated air (28a) with suction air flow path length lens Increasing injection propulsion output with combustion gas calorific value and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + increasing head with increasing sphere raising device (2F) + liquid metal with increasing sphere raising device (2F) + Inverted air storage + Inlet air flow length lens is used to heat the compressed air to separate and store the combustion gas. The turbine is driven by the calorific pressure and mass pressure of the combustion gas. + Various energies that make the liquid metal an accelerated rolling contact drive turbine. Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increasing injection propulsion output with combustion gas calorific value and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + increasing head with increasing sphere raising device (2F) + liquid metal with increasing sphere raising device (2F) + The turbine is driven by the calorific pressure and mass pressure of the combustion gas obtained by separately storing the compressed air by the intake air flow path length lens + The turbine that accelerates and contacts the liquid metal (2E) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increasing injection propulsion output with combustion gas calorific value and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + increasing head with increasing sphere raising device (2F) + liquid metal with increasing sphere raising device (2F) + The turbine that drives the turbine by the combustion gas calorie pressure and mass pressure, which is separately collected and stored by the intake air passage length lens + The acceleration of the liquid metal by the compressed air calorie and mass Various energy conservation cycle coalescing engines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming to infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increase ball lift device (2F) + Intake air flow path length Various energy storage cycle coalescence engines that use turbines to drive turbines with combustion gas calorific pressure and mass pressure, which are obtained by dividing and storing compressed heat from the heated air with a lens, and turbines that accelerate liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming to infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increase ball lift device (2F) + Intake air flow path length Various energy storage cycle coalescing engines that use turbines to drive turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by heating compressed air with a lens + turbines that accelerate liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by calorific pressure and mass pressure of combustion gas obtained by separately storing compressed air by collecting compressed heat + turbines driven by accelerated rolling contact with liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing heated air in a compressed heat recovery + turbine that drives liquid metal (2E) in accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines, which are turbines driven by combustion gas calorie pressure and mass pressure, each of which collects and saves heated air by compressed heat recovery + turbines that accelerate liquid metal by compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体ビスマス合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with calorific pressure and mass pressure of combustion gas separately stored in heat recovery + acceleration turbine drive of liquid bismuth alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+水銀を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle combined engines that drive turbines with calorific pressure and mass pressure of combustion gas separately stored in heat recovery + acceleration turbine drive of mercury. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with calorific pressure and mass pressure of combustion gas that have been divided and stored in heat recovery + Accelerated rolling contact turbine drive of liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体錫合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescence engines that drive turbines with calorie pressure and mass pressure of combustion gas that is divided and stored in heat recovery + Accelerate rolling contact turbine with liquid tin alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with the calorific pressure and mass pressure of combustion gases that have been divided and stored in heat recovery + accelerating turbines of liquid lead alloys. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by combustion gas calorie pressure and mass pressure obtained by separately dividing and storing heated air in compressed heat recovery + turbines that accelerate liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by combustion gas calorie pressure and mass pressure obtained by dividing and storing heated air by compressed heat recovery + turbines that accelerate liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by calorific pressure and mass pressure of combustion gas obtained by separately storing compressed air by collecting compressed heat + turbines driven by accelerated rolling contact with liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing heated air in a compressed heat recovery + turbine that drives liquid metal (2E) in accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines, which are turbines driven by combustion gas calorie pressure and mass pressure, each of which collects and saves heated air by compressed heat recovery + turbines that accelerate liquid metal by compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+タービンを液体タリウムを下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by three types of turbines + Drives turbines to accelerate liquid thallium downwards + Drives various aircrafts such as spacecrafts with rotational force propulsion driving force + Lifts liquid metal with increasing ball lift device (2F) Preservation and use + Intake air flow path length lens Compressed heat recovery divided and stored separately Combustion gas calorie pressure and mass pressure each drive turbine + Liquid metal acceleration turbine and various energy conservation cycle coalescence engine . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotating turbines rotating alternately to accelerate mercury downward + various aircrafts such as space shuttles to drive rotational jet propulsion + increase The liquid metal is lifted and stored in the ball lift device (2F). + The turbine is driven by the combustion gas calorific pressure and mass pressure obtained by separately storing the compressed air by the intake air flow path length lens. + Liquid metal (2E ) Is a turbine that accelerates and drives various energy storage cycles. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ビスマスを下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Rotating turbines with alternating rotation directions on the horizontal axis (1h) to accelerate liquid bismuth downwards + Drive various aircrafts such as space shuttles with rotational force propulsion driving force + Increase and store liquid metal with the rising sphere riser (2F) + Use the intake air flow path length lens to heat the compressed air and store the compressed air separately and drive the turbine with the combustion gas calorific pressure and mass pressure + Liquid metal Various energy storage cycle coalescing engines that are turbines driven by accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by three types of turbines + Rotating turbines with alternating rotation directions on the horizontal axis (1h) to accelerate liquid zinc downward + Drive various types of aircraft such as space shuttles with rotational force propulsion propulsion + Liquid metal is lifted and stored in the rising ball lift device (2F) + Heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively + Liquid metal ( 2E) Various energy storage cycle coalescing engines, which are turbines driven by accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体タリウム合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines alternately rotating to drive liquid thallium alloy downwards + various aircrafts such as space shuttles are driven by rotational force jet propulsion + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal Various energy storage cycle coalescing engines, which are turbines that are accelerated by heat and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorific pressure and mass pressure, respectively, which are compressed heat recovery divided and stored with intake air flow path length lens + Accelerated turbine drive with liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorific pressure and mass pressure, respectively, which are compressed heat recovery divided and stored with intake air flow path length lens + Accelerated turbine drive with liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体錫を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine of various energy storage cycles that drives turbines with combustion gas calorie pressure and mass pressure, which is divided and stored in compressed heat recovery and storage with heated intake air flow path length lens, + accelerating rolling contact turbine with liquid tin. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorific pressure and mass pressure, respectively, with compressed heat recovery divided and stored by intake air flow path length lens + accelerated rolling contact turbine with liquid lead. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorific pressure and mass pressure, respectively, which are compressed heat recovery divided and stored with intake air flow path length lens + Accelerated turbine drive with liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming to infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increase ball lift device (2F) + Intake air flow path length Various energy storage cycle coalescence engines that use turbines to drive turbines with combustion gas calorific pressure and mass pressure, which are obtained by dividing and storing compressed heat from the heated air with a lens, and turbines that accelerate liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by combustion gas calorie pressure and mass pressure obtained by dividing and storing heated air by compressed heat recovery + turbines that accelerate liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by calorific pressure and mass pressure of combustion gas obtained by separately storing compressed air by collecting compressed heat + turbines driven by accelerated rolling contact with liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing heated air in a compressed heat recovery + turbine that drives liquid metal (2E) in accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines, which are turbines driven by combustion gas calorie pressure and mass pressure, each of which collects and saves heated air by compressed heat recovery + turbines that accelerate liquid metal by compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with the calorific pressure and mass pressure of combustion gases that have been divided and stored in heat recovery + accelerating turbines of liquid lead alloys. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with the calorific pressure and mass pressure of combustion gases that have been divided and stored in heat recovery + accelerating turbines of liquid lead alloys. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体錫合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescence engines that drive turbines with calorie pressure and mass pressure of combustion gas that is divided and stored in heat recovery + Accelerate rolling contact turbine with liquid tin alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体錫合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescence engines that drive turbines with calorie pressure and mass pressure of combustion gas that is divided and stored in heat recovery + Accelerate rolling contact turbine with liquid tin alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+水銀を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle combined engines that drive turbines with calorific pressure and mass pressure of combustion gas separately stored in heat recovery + acceleration turbine drive of mercury. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by combustion gas calorie pressure and mass pressure obtained by separately dividing and storing heated air in compressed heat recovery + turbines that accelerate liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by combustion gas calorie pressure and mass pressure obtained by dividing and storing heated air by compressed heat recovery + turbines that accelerate liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by calorific pressure and mass pressure of combustion gas obtained by separately storing compressed air by collecting compressed heat + turbines driven by accelerated rolling contact with liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing heated air in a compressed heat recovery + turbine that drives liquid metal (2E) in accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+タービンを液体タリウムを下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Accelerating driving of turbine with liquid thallium downward + Heated air (28a) with intake air flow path length lens by heat pump (1G) and air heat exchanger (2X) Increasing injection propulsion output with combustion gas calorie and mass aiming at infinity + Increase and store liquid metal with increasing sphere lift device (2F) + Combustion with compressed heat recovery divided storage with intake air flow path length lens Various energy storage cycle coalescence engines that drive turbines with gas calorie pressure and mass pressure + turbines that accelerate liquid metal with compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotating turbines rotating alternately to accelerate mercury downward + various aircrafts such as space shuttles to drive rotational jet propulsion + increase The liquid metal is lifted and stored in the ball riser (2F) + the heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively + the liquid metal is accelerated Various energy storage cycle coalescing engine as a driving turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ビスマスを下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Rotating turbines with alternating rotation directions on the horizontal axis (1h) to accelerate liquid bismuth downwards + Drive various aircrafts such as space shuttles with rotational force propulsion driving force + Liquid metal is lifted and stored in the rising ball lift device (2F) + Heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively + Liquid metal ( 2E) Various energy storage cycle coalescing engines that are turbines that accelerate. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by three types of turbines + Rotating turbines with alternating rotation directions on the horizontal axis (1h) to accelerate liquid zinc downward + Drive various types of aircraft such as space shuttles with rotational force propulsion propulsion + Increase and store liquid metal with the rising sphere riser (2F) + Use the intake air flow path length lens to heat the compressed air and store the compressed air separately and drive the turbine with the combustion gas calorific pressure and mass pressure + Liquid metal Various energy storage cycle coalescing engines that are turbines driven by accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体タリウム合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotating turbines alternately rotating to accelerate liquid thallium alloy downward + various aircrafts such as space shuttles are driven by rotational force jet propulsion + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal (2E) Various energy storage cycle coalescing engines, which are turbines that are driven by accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid zinc alloy downward + various aircrafts such as space shuttles are driven by rotational force injection propulsion + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal Various energy storage cycle coalescing engines, which are turbines that are accelerated by heat and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+水銀を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorie pressure and mass pressure, respectively, with compressed heat recovery divided and stored by intake air flow path length lens + Acceleration turbine drive of mercury. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体錫を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorific pressure and mass pressure, respectively, which is obtained by dividing and storing heated air with intake air flow path length lens + accelerating turbine with liquid tin. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine for various energy storage cycles to drive turbines with combustion gas calorie pressure and mass pressure, respectively, with compressed heat recovery divided and stored with intake air flow length lens + Accelerated rolling contact turbine with liquid lead alloy . タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorific pressure and mass pressure, respectively, with compressed heat recovery divided and stored by intake air flow path length lens + accelerated rolling contact turbine with liquid lead. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+水銀を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorie pressure and mass pressure, respectively, with compressed heat recovery divided and stored by intake air flow path length lens + Acceleration turbine drive of mercury. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by combustion gas calorie pressure and mass pressure obtained by separately dividing and storing heated air in compressed heat recovery + turbines that accelerate liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by combustion gas calorie pressure and mass pressure obtained by dividing and storing heated air by compressed heat recovery + turbines that accelerate liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by calorific pressure and mass pressure of combustion gas obtained by separately storing compressed air by collecting compressed heat + turbines driven by accelerated rolling contact with liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing heated air in a compressed heat recovery + turbine that drives liquid metal (2E) in accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines, which are turbines driven by combustion gas calorie pressure and mass pressure, each of which collects and saves heated air by compressed heat recovery + turbines that accelerate liquid metal by compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with the calorific pressure and mass pressure of combustion gases that have been divided and stored in heat recovery + accelerating turbines of liquid lead alloys. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体錫合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with the calorific pressure and mass pressure of combustion gas that are stored separately in heat recovery and acceleration turbines that drive liquid tin alloys. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with calorific pressure and mass pressure of combustion gas that have been divided and stored in heat recovery + Accelerated rolling contact turbine drive of liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体錫合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescence engines that drive turbines with calorie pressure and mass pressure of combustion gas that is divided and stored in heat recovery + Accelerate rolling contact turbine with liquid tin alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with the calorific pressure and mass pressure of combustion gases that have been divided and stored in heat recovery + accelerating turbines of liquid lead alloys. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by combustion gas calorie pressure and mass pressure obtained by separately dividing and storing heated air in compressed heat recovery + turbines that accelerate liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by combustion gas calorie pressure and mass pressure obtained by dividing and storing heated air by compressed heat recovery + turbines that accelerate liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by calorific pressure and mass pressure of combustion gas obtained by separately storing compressed air by collecting compressed heat + turbines driven by accelerated rolling contact with liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+タービンを液体タリウムを下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Accelerating driving of turbine with liquid thallium downward + Heated air (28a) with intake air flow path length lens by heat pump (1G) and air heat exchanger (2X) Increasing injection propulsion output with combustion gas calorie and mass aiming at infinity + Increase and store liquid metal with increasing sphere lift device (2F) + Combustion with compressed heat recovery divided storage with intake air flow path length lens Various energy storage cycle coalescing engines that use turbines driven by gas calorie pressure and mass pressure, respectively, and turbines driven by accelerated rolling contact with liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines, which are turbines driven by combustion gas calorie pressure and mass pressure, each of which collects and saves heated air by compressed heat recovery + turbines that accelerate liquid metal by compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ビスマスを下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Rotating turbines with alternating rotation directions on the horizontal axis (1h) to accelerate liquid bismuth downwards + Drive various aircrafts such as space shuttles with rotational force propulsion driving force + Increase and store liquid metal with the rising sphere riser (2F) + Use the intake air flow path length lens to heat the compressed air and store the compressed air separately and drive the turbine with the combustion gas calorific pressure and mass pressure + Liquid metal Various energy storage cycle coalescing engines with accelerated turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by three types of turbines + Rotating turbines with alternating rotation directions on the horizontal axis (1h) to accelerate liquid zinc downward + Drive various types of aircraft such as space shuttles with rotational force propulsion propulsion + Liquid metal is lifted and stored in the rising ball lift device (2F) + Heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively + Liquid metal ( 2E) Various energy storage cycle coalescing engines that are turbines that accelerate. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体タリウム合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotating turbines alternately rotating to accelerate liquid thallium alloy downward + various aircrafts such as space shuttles are driven by rotational force jet propulsion + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal Combined engine with various energy conservation cycles, which is a turbine driven by accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid zinc alloy downward + various aircrafts such as space shuttles are driven by rotational force injection propulsion + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal (2E) Various energy storage cycle coalescing engines, which are turbines that are driven by accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ガリウム合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate the liquid gallium alloy downward and drive various aircrafts such as space shuttles, etc. + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal Various energy storage cycle coalescing engines, which are turbines that are accelerated by heat and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体錫を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorific pressure and mass pressure, respectively, which is obtained by dividing and storing heated air with intake air flow path length lens + accelerating turbine with liquid tin. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorie pressure and mass pressure, respectively, which is obtained by dividing and storing compressed air with compressed intake air flow path length lens + accelerating turbine with liquid lead. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体インジウム合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Compressed heat recovery by the intake air flow length lens, and the turbine is driven by the combustion gas calorie pressure and mass pressure obtained by separately storing + The various energy storage cycle coalescence engine that drives the liquid indium alloy by accelerated rolling contact turbine . タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体インジウム合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Compressed heat recovery by the intake air flow length lens, and the turbine is driven by the combustion gas calorie pressure and mass pressure obtained by separately storing + The various energy storage cycle coalescence engine that drives the liquid indium alloy by accelerated rolling contact turbine . タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体インジウム合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorific pressure and mass pressure, respectively, which is obtained by dividing and storing heated air with intake air flow length lens, and accelerating turbine with liquid indium alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by combustion gas calorie pressure and mass pressure obtained by separately dividing and storing heated air in compressed heat recovery + turbines that accelerate liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by combustion gas calorie pressure and mass pressure obtained by dividing and storing heated air by compressed heat recovery + turbines that accelerate liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by calorific pressure and mass pressure of combustion gas obtained by separately storing compressed air by collecting compressed heat + turbines driven by accelerated rolling contact with liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing heated air in a compressed heat recovery + turbine that drives liquid metal (2E) in accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines, which are turbines driven by combustion gas calorie pressure and mass pressure, each of which collects and saves heated air by compressed heat recovery + turbines that accelerate liquid metal by compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体錫合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with the calorific pressure and mass pressure of combustion gas that are stored separately in heat recovery and acceleration turbines that drive liquid tin alloys. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体錫合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with the calorific pressure and mass pressure of combustion gas that are stored separately in heat recovery and acceleration turbines that drive liquid tin alloys. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体錫合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescence engines that drive turbines with calorie pressure and mass pressure of combustion gas that is divided and stored in heat recovery + Accelerate rolling contact turbine with liquid tin alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体錫合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescence engines that drive turbines with calorie pressure and mass pressure of combustion gas that is divided and stored in heat recovery + Accelerate rolling contact turbine with liquid tin alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体錫合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with the calorific pressure and mass pressure of combustion gas that are stored separately in heat recovery and acceleration turbines that drive liquid tin alloys. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by combustion gas calorie pressure and mass pressure obtained by separately dividing and storing heated air in compressed heat recovery + turbines that accelerate liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by combustion gas calorie pressure and mass pressure obtained by dividing and storing heated air by compressed heat recovery + turbines that accelerate liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+タービンを液体タリウムを下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Accelerating driving of turbine with liquid thallium downward + Heated air (28a) with intake air flow path length lens by heat pump (1G) and air heat exchanger (2X) Increasing injection propulsion output with combustion gas calorie and mass aiming at infinity + Increase and store liquid metal with increasing sphere lift device (2F) + Combustion with compressed heat recovery divided storage with intake air flow path length lens Various energy storage cycle coalescence engines that drive turbines with gas calorie pressure and mass pressure + turbines that drive liquid metal in accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing heated air in a compressed heat recovery + turbine that drives liquid metal (2E) in accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ビスマスを下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate liquid bismuth downward driving + heated air (28a) with suction air flow path length lens (1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorific value and mass + Increase sphere lift device (2F) to save and use liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines, which are turbines driven by combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by heating and heating, and a turbine that drives liquid metal accelerated by calorie and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by three types of turbines + Rotating turbines with alternating rotation directions on the horizontal axis (1h) to accelerate liquid zinc downward + Drive various types of aircraft such as space shuttles with rotational force propulsion propulsion + Increase and store liquid metal with the rising sphere riser (2F) + Use the intake air flow path length lens to heat the compressed air and store the compressed air separately and drive the turbine with the combustion gas calorific pressure and mass pressure + Liquid metal Various energy storage cycle coalescing engines with accelerated turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体タリウム合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotating turbines alternately rotating to accelerate liquid thallium alloy downward + various aircrafts such as space shuttles are driven by rotational force jet propulsion + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal (2E) Various energy storage cycle coalescing engines that are turbines that are accelerated. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid zinc alloy downward + various aircrafts such as space shuttles are driven by rotational force injection propulsion + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal Combined engine with various energy conservation cycles, which is a turbine driven by accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ガリウム合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate the liquid gallium alloy downward and drive various aircrafts such as space shuttles, etc. + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal (2E) Various energy storage cycle coalescing engines, which are turbines that are driven by accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + various aircrafts such as space shuttles are driven by rotational jet propulsion + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal Various energy storage cycle coalescing engines, which are turbines that are accelerated by heat and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorific pressure and mass pressure, respectively, which are compressed heat recovery divided and stored with intake air flow path length lens + Accelerated turbine drive with liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Inverted air flow length lens is used to drive the turbine with the combustion gas calorie pressure and mass pressure, respectively, where the heated air is divided and stored in a compressed heat + Various types of turbines that are driven to accelerate the liquid metal with the compressed air calorie and mass Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine for various energy storage cycles to drive turbines with combustion gas calorie pressure and mass pressure, respectively, with compressed heat recovery divided and stored with intake air flow length lens + Accelerated rolling contact turbine with liquid lead alloy . タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+水銀を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorie pressure and mass pressure, respectively, which are heated and compressed by heat recovery by intake air flow path length lens, and to drive mercury by accelerated rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorific pressure and mass pressure, respectively, which are compressed heat recovery divided and stored with intake air flow path length lens + Accelerated turbine drive with liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by combustion gas calorie pressure and mass pressure obtained by separately dividing and storing heated air in compressed heat recovery + turbines that accelerate liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by combustion gas calorie pressure and mass pressure obtained by dividing and storing heated air by compressed heat recovery + turbines that accelerate liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by calorific pressure and mass pressure of combustion gas obtained by separately storing compressed air by collecting compressed heat + turbines driven by accelerated rolling contact with liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing heated air in a compressed heat recovery + turbine that drives liquid metal (2E) in accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines, which are turbines driven by combustion gas calorie pressure and mass pressure, each of which collects and saves heated air by compressed heat recovery + turbines that accelerate liquid metal by compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with the calorific pressure and mass pressure of combustion gases that have been divided and stored in heat recovery + accelerating turbines of liquid lead alloys. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体錫合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with the calorific pressure and mass pressure of combustion gas that are stored separately in heat recovery and acceleration turbines that drive liquid tin alloys. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with calorific pressure and mass pressure of combustion gas that have been divided and stored in heat recovery + Accelerated rolling contact turbine drive of liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with calorific pressure and mass pressure of combustion gas that have been divided and stored in heat recovery + Accelerated rolling contact turbine drive of liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with the calorific pressure and mass pressure of combustion gases that have been divided and stored in heat recovery + accelerating turbines of liquid lead alloys. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by combustion gas calorie pressure and mass pressure obtained by separately dividing and storing heated air in compressed heat recovery + turbines that accelerate liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+タービンを液体タリウムを下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Accelerating driving of turbine with liquid thallium downward + Heated air (28a) with intake air flow path length lens by heat pump (1G) and air heat exchanger (2X) Increasing injection propulsion output with combustion gas calorie and mass aiming at infinity + Increase and store liquid metal with increasing sphere lift device (2F) + Combustion with compressed heat recovery divided storage with intake air flow path length lens Various energy storage cycle coalescence engines, which are turbines driven by gas calorie pressure and mass pressure, respectively, and turbines that accelerate the liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by calorific pressure and mass pressure of combustion gas obtained by separately storing compressed air by collecting compressed heat + turbines driven by accelerated rolling contact with liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ビスマスを下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate liquid bismuth downward driving + heated air (28a) with suction air flow path length lens (1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorific value and mass + Increase sphere lift device (2F) to save and use liquid metal + Intake air flow path length lens Various energy storage cycle coalescing engines, in which the turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing the heated air in the compressed heat recovery and the turbine that drives the liquid metal (2E) in an accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by three types of turbines + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate the liquid zinc downward + heated air (28a) heat pump with suction air flow path length lens (1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorific value and mass + Increase sphere lift device (2F) to save and use liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines, which are turbines driven by combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by heating and heating, and a turbine that drives liquid metal accelerated by calorie and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体タリウム合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotating turbines alternately rotating to accelerate liquid thallium alloy downward + various aircrafts such as space shuttles are driven by rotational force jet propulsion + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal Various energy conservation cycle coalescing engines that are turbines that are accelerated. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid zinc alloy downward + various aircrafts such as space shuttles are driven by rotational force injection propulsion + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal (2E) Various energy storage cycle coalescing engines that are turbines that are accelerated. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ガリウム合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate the liquid gallium alloy downward and drive various aircrafts such as space shuttles, etc. + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal Combined engine with various energy conservation cycles, which is a turbine driven by accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + various aircrafts such as space shuttles are driven by rotational jet propulsion + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal (2E) Various energy storage cycle coalescing engines, which are turbines that are driven by accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + various aircrafts such as space shuttles are driven by rotational jet propulsion + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal Various energy storage cycle coalescing engines, which are turbines that are accelerated by heat and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体インジウム合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorific pressure and mass pressure, respectively, which is obtained by dividing and storing heated air with intake air flow length lens, and accelerating turbine with liquid indium alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体インジウム合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorific pressure and mass pressure, respectively, which is obtained by dividing and storing heated air with intake air flow length lens, and accelerating turbine with liquid indium alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+水銀を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorie pressure and mass pressure, respectively, which are heated and compressed by heat recovery by intake air flow path length lens, and to drive mercury by accelerated rolling contact turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+より液体カドミウム合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Compressed heat recovery with heated intake air flow path length lens Divided and stored by combustion gas Turbine is driven by calorie pressure and mass pressure, respectively + Combined with various energy storage cycle that drives liquid cadmium alloy by accelerated rolling contact turbine organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+重い物質の被覆白金球を衝撃低減手段と共に加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Inlet air flow length lens to heat the compressed air, and to separate and store the combustion gas to drive the turbine with the calorific pressure and mass pressure of the combustion gas + to drive the heavy material coated platinum ball together with the impact reduction means to accelerate the turbine Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by combustion gas calorie pressure and mass pressure obtained by separately dividing and storing heated air in compressed heat recovery + turbines that accelerate liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by combustion gas calorie pressure and mass pressure obtained by dividing and storing heated air by compressed heat recovery + turbines that accelerate liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by calorific pressure and mass pressure of combustion gas obtained by separately storing compressed air by collecting compressed heat + turbines driven by accelerated rolling contact with liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing heated air in a compressed heat recovery + turbine that drives liquid metal (2E) in accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines, which are turbines driven by combustion gas calorie pressure and mass pressure, each of which collects and saves heated air by compressed heat recovery + turbines that accelerate liquid metal by compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体錫合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with the calorific pressure and mass pressure of combustion gas that are stored separately in heat recovery and acceleration turbines that drive liquid tin alloys. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体錫合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with the calorific pressure and mass pressure of combustion gas that are stored separately in heat recovery and acceleration turbines that drive liquid tin alloys. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with calorific pressure and mass pressure of combustion gas that have been divided and stored in heat recovery + Accelerated rolling contact turbine drive of liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with calorific pressure and mass pressure of combustion gas that have been divided and stored in heat recovery + Accelerated rolling contact turbine drive of liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+重い物質の被覆銀合金球を衝撃低減手段と共に加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescence engines that drive turbines with calorific pressure and mass pressure of combustion gas that is divided and stored in heat recovery, and that drive heavy turbine-coated silver alloy balls together with impact reduction means to accelerate turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+タービンを液体タリウムを下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Accelerating driving of turbine with liquid thallium downward + Heated air (28a) with intake air flow path length lens by heat pump (1G) and air heat exchanger (2X) Increasing injection propulsion output with combustion gas calorie and mass aiming at infinity + Increase and store liquid metal with increasing sphere lift device (2F) + Combustion with compressed heat recovery divided storage with intake air flow path length lens Various energy storage cycle coalescence engines, which are turbines driven by gas calorie pressure and mass pressure, respectively, and turbines that accelerate liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by combustion gas calorie pressure and mass pressure obtained by dividing and storing heated air by compressed heat recovery + turbines that accelerate liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ビスマスを下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate liquid bismuth downward driving + heated air (28a) with suction air flow path length lens (1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorific value and mass + Increase sphere lift device (2F) to save and use liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines, which are turbines driven by combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by heating and heating, and turbines driven by accelerated rolling contact with liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by three types of turbines + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate the liquid zinc downward + heated air (28a) heat pump with suction air flow path length lens (1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorific value and mass + Increase sphere lift device (2F) to save and use liquid metal + Intake air flow path length lens Various energy storage cycle coalescing engines, in which the turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing the heated air in the compressed heat recovery and the turbine that drives the liquid metal (2E) in an accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体タリウム合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to drive acceleration of liquid thallium alloy downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming to infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increase ball lift device (2F) + Intake air flow path length Various energy storage cycle coalescence engines that use turbines to drive turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed heat from the heated air with the lens + turbines that accelerate the liquid metal with the compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid zinc alloy downward + various aircrafts such as space shuttles are driven by rotational force injection propulsion + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal Various energy conservation cycle coalescing engines that are turbines that are accelerated. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ガリウム合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate the liquid gallium alloy downward and drive various aircrafts such as space shuttles, etc. + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal (2E) Various energy storage cycle coalescing engines that are turbines that are accelerated. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + various aircrafts such as space shuttles are driven by rotational jet propulsion + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal Combined engine with various energy conservation cycles, which is a turbine driven by accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + various aircrafts such as space shuttles are driven by rotational jet propulsion + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal (2E) Various energy storage cycle coalescing engines, which are turbines that are driven by accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + various aircrafts such as space shuttles are driven by rotational jet propulsion + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal Various energy storage cycle coalescing engines, which are turbines that are accelerated by heat and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorific pressure and mass pressure, respectively, which are compressed heat recovery divided and stored with intake air flow path length lens + Accelerated turbine drive with liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+水銀を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorie pressure and mass pressure, respectively, with compressed heat recovery divided and stored by intake air flow path length lens + Acceleration turbine drive of mercury. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体カドミウム合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Compressed heat recovery by the intake air flow length lens and the turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing + Various energy storage cycle coalescence engine that drives liquid cadmium alloy by accelerated rolling contact turbine . タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体カドミウム合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Compressed heat recovery by the intake air flow length lens and the turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing + Various energy storage cycle coalescence engine that drives liquid cadmium alloy by accelerated rolling contact turbine . タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorific pressure and mass pressure, respectively, which are compressed heat recovery divided and stored with intake air flow path length lens + Accelerated turbine drive with liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by combustion gas calorie pressure and mass pressure obtained by separately dividing and storing heated air in compressed heat recovery + turbines that accelerate liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by combustion gas calorie pressure and mass pressure obtained by dividing and storing heated air by compressed heat recovery + turbines that accelerate liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by calorific pressure and mass pressure of combustion gas obtained by separately storing compressed air by collecting compressed heat + turbines driven by accelerated rolling contact with liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing heated air in a compressed heat recovery + turbine that drives liquid metal (2E) in accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines, which are turbines driven by combustion gas calorie pressure and mass pressure, each of which collects and saves heated air by compressed heat recovery + turbines that accelerate liquid metal by compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with the calorific pressure and mass pressure of combustion gases that have been divided and stored in heat recovery + accelerating turbines of liquid lead alloys. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with the calorific pressure and mass pressure of combustion gases that have been divided and stored in heat recovery + accelerating turbines of liquid lead alloys. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with calorific pressure and mass pressure of combustion gas that have been divided and stored in heat recovery + Accelerated rolling contact turbine drive of liquid lead alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体カドミウムを加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescence engines that drive turbines with the calorific pressure and mass pressure of combustion gas that are divided and stored by heat recovery + accelerating rolling and contact turbines of liquid cadmium. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with the calorific pressure and mass pressure of combustion gases that have been divided and stored in heat recovery + accelerating turbines of liquid lead alloys. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by combustion gas calorie pressure and mass pressure obtained by separately dividing and storing heated air in compressed heat recovery + turbines that accelerate liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ビスマスを下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate liquid bismuth downward driving + heated air (28a) with suction air flow path length lens (1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorific value and mass + Increase sphere lift device (2F) to save and use liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by heating and heating + turbines that accelerate the liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by three types of turbines + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate the liquid zinc downward + heated air (28a) heat pump with suction air flow path length lens (1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorific value and mass + Increase sphere lift device (2F) to save and use liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines, which are turbines driven by combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by heating and heating, and turbines driven by accelerated rolling contact with liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体タリウム合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to drive acceleration of liquid thallium alloy downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming to infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increase ball lift device (2F) + Intake air flow path length Various energy storage cycle coalescing engines that use turbines to drive the turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed heat from the air heated by the lens + liquid metal (2E), which is driven by accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid zinc alloy downward + heated air (28a) with suction air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming to infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increase ball lift device (2F) + Intake air flow path length Various energy storage cycle coalescence engines that use turbines to drive turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed heat from the heated air with the lens + turbines that accelerate the liquid metal with the compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ガリウム合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate the liquid gallium alloy downward and drive various aircrafts such as space shuttles, etc. + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal Various energy conservation cycle coalescing engines that are turbines that are accelerated. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + various aircrafts such as space shuttles are driven by rotational jet propulsion + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal (2E) Various energy storage cycle coalescing engines that are turbines that are accelerated. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + various aircrafts such as space shuttles are driven by rotational jet propulsion + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal Combined engine with various energy conservation cycles, which is a turbine driven by accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + various aircrafts such as space shuttles are driven by rotational jet propulsion + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal (2E) Various energy storage cycle coalescing engines, which are turbines that are driven by accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + various aircrafts such as space shuttles are driven by rotational jet propulsion + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal Various energy storage cycle coalescing engines, which are turbines that are accelerated by heat and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+水銀を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorie pressure and mass pressure, respectively, with compressed heat recovery divided and stored by intake air flow path length lens + Acceleration turbine drive of mercury. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+より液体カドミウム合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorie pressure and mass pressure, respectively, with compressed heat recovery divided and stored by intake air flow length lens + acceleration turbine drive with liquid cadmium alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine for various energy storage cycles to drive turbines with combustion gas calorie pressure and mass pressure, respectively, with compressed heat recovery divided and stored with intake air flow length lens + Accelerated rolling contact turbine with liquid lead alloy . タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体ビスマス合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Compressed heat recovery with intake air flow path length lens Divided and stored in compressed heat, turbine is driven by combustion gas calorie pressure and mass pressure + Liquid bismuth alloy accelerated rolling contact turbine driven various energy storage cycle coalescence engine . タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+重い物質の被覆金球を衝撃低減手段と共に加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Compressed heat recovery with intake air flow path length lens, and the turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing + Various heavy-duty coated gold spheres and acceleration turbine drive with impact reducing means Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by combustion gas calorie pressure and mass pressure obtained by separately dividing and storing heated air in compressed heat recovery + turbines that accelerate liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by combustion gas calorie pressure and mass pressure obtained by dividing and storing heated air by compressed heat recovery + turbines that accelerate liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by calorific pressure and mass pressure of combustion gas obtained by separately storing compressed air by collecting compressed heat + turbines driven by accelerated rolling contact with liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing heated air in a compressed heat recovery + turbine that drives liquid metal (2E) in accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines, which are turbines driven by combustion gas calorie pressure and mass pressure, each of which collects and saves heated air by compressed heat recovery + turbines that accelerate liquid metal by compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with the calorific pressure and mass pressure of combustion gases that have been divided and stored in heat recovery + accelerating turbines of liquid lead alloys. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with the calorific pressure and mass pressure of combustion gases that have been divided and stored in heat recovery + accelerating turbines of liquid lead alloys. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体カドミウムを加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescence engines that drive turbines with the calorific pressure and mass pressure of combustion gas that are divided and stored by heat recovery + accelerating rolling and contact turbines of liquid cadmium. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体インジウムを加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle combined engines that drive turbines with calorific pressure and mass pressure of combustion gas that is divided and stored in heat recovery + Accelerate rolling in contact with liquid indium, and contact turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体ガリウムを加速タービン駆動する各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescence engines that drive turbines with combustion gas calorie pressure and mass pressure that are divided and stored in heat recovery + acceleration turbine drive of liquid gallium. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ビスマスを下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate liquid bismuth downward driving + heated air (28a) with suction air flow path length lens (1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorific value and mass + Increase sphere lift device (2F) to save and use liquid metal + Intake air flow path length lens Various energy storage cycle coalescing engines that drive turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed heat recovered in compressed heat recovery + turbines that accelerate liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by three types of turbines + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate the liquid zinc downward + heated air (28a) heat pump with suction air flow path length lens (1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorific value and mass + Increase sphere lift device (2F) to save and use liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines that use turbines driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by heating and heating + turbines that accelerate the liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体タリウム合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to drive acceleration of liquid thallium alloy downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming to infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increase ball lift device (2F) + Intake air flow path length Various energy storage cycle coalescence engines, which are turbines driven by combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air from heated air with a lens, and turbines driven by accelerated rolling contact with liquid metal. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid zinc alloy downward + heated air (28a) with suction air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming to infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increase ball lift device (2F) + Intake air flow path length Various energy storage cycle coalescing engines that use turbines to drive the turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed heat from the air heated by the lens + liquid metal (2E), which is driven by accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ガリウム合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid gallium alloy downward + heated air (28a) with suction air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming to infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increase ball lift device (2F) + Intake air flow path length Various energy storage cycle coalescence engines that use turbines to drive turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed heat from the heated air with the lens + turbines that accelerate the liquid metal with the compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + various aircrafts such as space shuttles are driven by rotational jet propulsion + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal Various energy conservation cycle coalescing engines that are turbines that are accelerated. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + various aircrafts such as space shuttles are driven by rotational jet propulsion + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal (2E) Various energy storage cycle coalescing engines that are turbines that are accelerated. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + various aircrafts such as space shuttles are driven by rotational jet propulsion + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal Combined engine with various energy conservation cycles, which is a turbine driven by accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + various aircrafts such as space shuttles are driven by rotational jet propulsion + Increase and use liquid metal by increasing ball lift device (2F) + Use the intake air flow path length lens to drive the turbine with the combustion gas calorific pressure and mass pressure, respectively, which saves the heated air by compression heat recovery + Liquid metal (2E) Various energy storage cycle coalescing engines, which are turbines that are driven by accelerated rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属を圧縮空気熱量と質量で加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotating turbines rotating alternately to accelerate mercury downward + various aircrafts such as space shuttles to drive rotational jet propulsion + increase Storing and using the liquid metal with the ball lifter (2F) + Using the intake air flow path length lens, the heated air is compressed and recovered by heat, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively + Compressing the liquid metal Various energy storage cycle coalescing engines that are turbines that are accelerated by heat and mass of air. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体カドミウム合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorie pressure and mass pressure, respectively, with compressed heat recovery divided and stored with intake air flow path length lens + Accelerated turbine drive with liquid cadmium alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体カドミウム合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorie pressure and mass pressure, respectively, with compressed heat recovery divided and stored with intake air flow path length lens + Accelerated turbine drive with liquid cadmium alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体ビスマス合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Compressed heat recovery with intake air flow path length lens Divided and stored in compressed heat, turbine is driven by combustion gas calorie pressure and mass pressure + Liquid bismuth alloy accelerated rolling contact turbine driven various energy storage cycle coalescence engine . タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体ビスマス合金を加速転がり接触タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Compressed heat recovery with intake air flow path length lens Divided and stored in compressed heat, turbine is driven by combustion gas calorie pressure and mass pressure + Liquid bismuth alloy accelerated rolling contact turbine driven various energy storage cycle coalescence engine . タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体ビスマス合金を加速タービン駆動する各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Combined engine with various energy storage cycles to drive turbines with combustion gas calorie pressure and mass pressure, respectively, with compressed heat recovery divided storage with intake air flow path length lens + Acceleration turbine drive with liquid bismuth alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+燃料費僅少CO2排気僅少で回転出力噴射推進出力増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+金合金球を加速駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Fuel cost is low CO2 exhaust is small and rotational output injection propulsion output is increased + Liquid metal is raised and stored by using an increase ball lift device (2F) + Heated by intake air flow path length lens Various energy storage cycle coalescence engines equipped with a counter-rotating vertical-type full-blade gravity solar thermal turbine that drives the turbine with the combustion gas calorie pressure and mass pressure, each of which compresses and collects heat and compresses air, and accelerates the gold alloy balls. タービン3種類駆動の液体金属重力太陽熱エンジン+燃料費僅少CO2排気僅少で回転出力噴射推進出力増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体錫合金を加速駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Fuel cost is low CO2 exhaust is small and rotational output injection propulsion output is increased + Liquid metal is raised and stored by using an increase ball lift device (2F) + Heated by intake air flow path length lens Various energy storage cycle coalescence engines equipped with a counter-rotating vertical-type full-wing blade gravity solar turbine that drives the turbine with the combustion gas calorie pressure and mass pressure, respectively, which compresses and collects heat for compression, and accelerates the liquid tin alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+燃料費僅少CO2排気僅少で回転出力噴射推進出力増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体錫合金を加速転がり接触駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Fuel cost is low CO2 exhaust is small and rotational output injection propulsion output is increased + Liquid metal is raised and stored by using an increase ball lift device (2F) + Heated by intake air flow path length lens Combining various energy conservation cycles with a counter-rotating vertical all-blade gravity solar thermal turbine that drives a turbine with combustion gas calorie pressure and mass pressure, which compresses and collects heat and compresses air + accelerating rolling contact with liquid tin alloy organ. タービン3種類駆動の液体金属重力太陽熱エンジン+燃料費僅少CO2排気僅少で回転出力噴射推進出力増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体錫合金を加速転がり接触駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Fuel cost is low CO2 exhaust is small and rotational output injection propulsion output is increased + Liquid metal is raised and stored by using an increase ball lift device (2F) + Heated by intake air flow path length lens Combining various energy conservation cycles with a counter-rotating vertical all-blade gravity solar thermal turbine that drives a turbine with combustion gas calorie pressure and mass pressure, which compresses and collects heat and compresses air + accelerating rolling contact with liquid tin alloy organ. タービン3種類駆動の液体金属重力太陽熱エンジン+燃料費僅少CO2排気僅少で回転出力噴射推進出力増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体錫合金を加速駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Fuel cost is low CO2 exhaust is small and rotational output injection propulsion output is increased + Liquid metal is raised and stored by using an increase ball lift device (2F) + Heated by intake air flow path length lens Various energy storage cycle coalescence engines equipped with a counter-rotating vertical-type full-wing blade gravity solar turbine that drives the turbine with the combustion gas calorie pressure and mass pressure, respectively, which compresses and collects heat for compression, and accelerates the liquid tin alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Combining various energy conservation cycles with a vertical all-blade gravity solar turbine driven by combustion gas calorific value and mass to drive the turbine with combustion gas calorific pressure and mass pressure, respectively, by separately storing compressed heat recovered from compressed air organ. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Combining various energy storage cycle engines equipped with a vertical all-blade gravity solar turbine that drives a turbine with combustion gas calorie pressure and mass pressure, each of which is divided and stored in a compressed heat recovery and heating pressure + liquid metal (2E) acceleration drive . タービン3種類駆動の液体金属重力太陽熱エンジン+タービンを液体タリウムを下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Accelerating driving of turbine with liquid thallium downward + Heated air (28a) with intake air flow path length lens by heat pump (1G) and air heat exchanger (2X) Increasing injection propulsion output with combustion gas calorie and mass aiming at infinity + Increase and store liquid metal with increasing sphere lift device (2F) + Combustion with compressed heat recovery divided storage with intake air flow path length lens Various energy conservation cycle coalescing engines equipped with a + type full blade gravity solar turbine that drives the turbine with gas calorie pressure and mass pressure, respectively. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens The turbine is driven by the combustion gas calorific pressure and mass pressure, which is obtained by separately storing the compressed heat recovered from the heated air. Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ビスマスを下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate liquid bismuth downward driving + heated air (28a) with suction air flow path length lens (1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorific value and mass + Increase sphere lift device (2F) to save and use liquid metal + Intake air flow path length lens The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by separately storing the compressed air in the compressed heat recovery and heating. Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by three types of turbines + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate the liquid zinc downward + heated air (28a) heat pump with suction air flow path length lens (1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorific value and mass + Increase sphere lift device (2F) to save and use liquid metal + Intake air flow path length lens The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by separately storing the compressed air in the compressed heat recovery and heating, and various energy conservation cycles provided with a vertical all-blade gravity solar turbine driven by all combustion gas calorie and mass Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体タリウム合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to drive acceleration of liquid thallium alloy downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming to infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increase ball lift device (2F) + Intake air flow path length Turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing the heat of the air heated by the lens by the lens + the vertical type moving blade gravity solar heat driven by all the combustion gas calorie and mass that can be selected by liquid oxygen injection Various energy storage cycle coalescence engine with turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid zinc alloy downward + heated air (28a) with suction air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming to infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increase ball lift device (2F) + Intake air flow path length Various energy storage cycle coalescing engines equipped with a + type full rotor blade gravity solar heat turbine that drives the turbine with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed heat recovered by the lens. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ガリウム合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid gallium alloy downward + heated air (28a) with suction air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming to infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increase ball lift device (2F) + Intake air flow path length The turbine is driven by the combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing the heat of the air heated by the lens, and the turbine is driven by the combustion gas calorie and mass. Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming to infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increase ball lift device (2F) + Intake air flow path length Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed heat recovered by heating air with a lens, and a counter-rotating vertical-type full-rotor gravity gravity solar turbine driven by the combustion gas calorie and mass is provided. Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar heat engine + A horizontal turbine (1h) with rotating turbines in alternating rotation direction to drive liquid lead alloy downwards + Drive various types of ships to drive rotational force and jet propulsion force + Increase ball Liquid metal is lifted and stored in the ascending device (2F) + Heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorie pressure and mass pressure, respectively + combustion gas calorie and mass All energy storage cycle coalescing engine equipped with a vertical all blade gravity solar turbine driven by タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar heat engine + A horizontal turbine (1h) with rotating turbines in alternating rotation direction to drive liquid lead alloy downwards + Drive various types of ships to drive rotational force and jet propulsion force + Increase ball Use ascending device (2F) to save and store liquid metal + Intake air flow path length lens to heat and compress compressed heat recovery Separated and stored combustion gas calorie pressure and mass pressure to drive turbine + Liquid oxygen injection Various energy conservation cycle coalescing engines equipped with a vertical all blade gravity solar turbine driven by all possible combustion gas heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar heat engine + A horizontal turbine (1h) with rotating turbines in alternating rotation direction to drive liquid lead alloy downwards + Drive various types of ships to drive rotational force and jet propulsion force + Increase ball Liquid metal is lifted and stored in the ascending device (2F) + Heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with gravity solar thermal turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens heats compressed air to separate and store compressed heat Drives turbine with combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass Combined engine with various energy conservation cycles equipped with a counter rotating saddle-type all-blade gravity solar thermal turbine driven by タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens heats compressed air to separate and store compressed heat Drives turbine with combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass Combined engine with various energy conservation cycles equipped with a counter-rotating vertical all-blade gravitational solar thermal turbine driven by. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens heats compressed air to separate and store compressed heat Drives turbine with combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass Combined with various energy conservation cycle engines equipped with a vertical all-blade gravity solar thermal turbine driven by. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens heats compressed air to separate and store compressed heat Drives turbine with combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass Combined with various energy conservation cycle engines equipped with a vertical all-blade gravity solar thermal turbine driven by. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens heats compressed air to separate and store compressed heat Drives turbine with combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass Combined with various energy conservation cycle engines equipped with a vertical all-blade gravity solar thermal turbine driven by. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens heats compressed air to separate and store compressed heat Drives turbine with combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass Combined with various energy conservation cycle engines equipped with a vertical all-blade gravity solar thermal turbine driven by. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens heats compressed air to separate and store compressed heat Drives turbine with combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass Combined with various energy conservation cycle engines equipped with a vertical all-blade gravity solar thermal turbine driven by. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens can be used to drive the turbine with combustion gas calorific pressure and mass pressure obtained by separately storing compressed air with compressed heat recovery + Liquid oxygen injection can be selected Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine driven by the combustion gas calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens can be used to drive the turbine with combustion gas calorific pressure and mass pressure obtained by separately storing compressed air with compressed heat recovery + Liquid oxygen injection can be selected Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine driven by the combustion gas calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens can be used to drive the turbine with combustion gas calorific pressure and mass pressure obtained by separately storing compressed air with compressed heat recovery + Liquid oxygen injection can be selected Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine driven by the combustion gas calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens can be used to drive the turbine with combustion gas calorific pressure and mass pressure obtained by separately storing compressed air with compressed heat recovery + Liquid oxygen injection can be selected Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine driven by the combustion gas calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens can be used to drive the turbine with combustion gas calorific pressure and mass pressure obtained by separately storing compressed air with compressed heat recovery + Liquid oxygen injection can be selected Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine driven by the combustion gas calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens heats compressed air to separate and store compressed heat Collects and saves combustion gas calorific pressure and mass pressure to drive turbine + vertical full blade gravity solar heat Various energy storage cycle coalescence engine with turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+タービンを液体タリウムを下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by 3 types of turbines + Drives turbines to accelerate liquid thallium downwards + Drives various ships to drive rotational force and propulsion propulsion force + Increases and stores liquid metal with increasing ball rising device (2F) + Combined engine with various energy storage cycles equipped with a vertical all-blade gravity solar heat turbine that drives turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed heat with compressed intake air flow length lens. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens heats compressed air to separate and store compressed heat Collects and saves combustion gas calorific pressure and mass pressure to drive turbine + vertical full blade gravity solar heat Various energy storage cycle coalescence engine with turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ビスマスを下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotating turbines rotating in the direction of rotation to accelerate liquid bismuth downwards + driving various ships and rotational propulsion and propulsion propulsion + rising sphere The device (2F) uses liquid metal ascending and storing + Inlet air flow path length lens is used to heat the compressed air by dividing and storing the combustion gas, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid zinc downwards + driving various types of ships to drive rotational force and propulsion propulsion + rising sphere The device (2F) uses liquid metal ascending and storing + Inlet air flow path length lens is used to heat the compressed air by dividing and storing the combustion gas, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体タリウム合金を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar engine + horizontal axis (1h) with turbines rotating in rotation direction to accelerate the liquid thallium alloy downward + drive various kinds of ships to drive rotational force and propulsion propulsion + increase ball Liquid metal is lifted and stored in the ascending device (2F) + Heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorie pressure and mass pressure, respectively + combustion gas calorie and mass All energy storage cycle coalescing engine equipped with a counter rotating saddle type full rotor blade gravity solar turbine driven by タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛合金を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid zinc alloy downward + to drive various ships + rotational force and jet propulsive force + increasing sphere Liquid metal is lifted and stored in the ascending device (2F) + Heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorie pressure and mass pressure, respectively + combustion gas calorie and mass All energy storage cycle coalescing engine equipped with a counter rotating saddle type full rotor blade gravity solar turbine driven by タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ガリウム合金を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar heat engine + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to drive liquid gallium alloy downwards + Drive various types of ships to drive rotational force and injection propulsion force + Increase ball Liquid metal is lifted and stored in the ascending device (2F) + Heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorie pressure and mass pressure, respectively + combustion gas calorie and mass All energy storage cycle coalescing engine equipped with a counter rotating saddle type full rotor blade gravity solar turbine driven by タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar heat engine + A horizontal turbine (1h) with rotating turbines in alternating rotation direction to drive liquid lead alloy downwards + Drive various types of ships to drive rotational force and jet propulsion force + Increase ball Liquid metal is lifted and stored in the ascending device (2F) + Heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorie pressure and mass pressure, respectively + combustion gas calorie and mass All energy storage cycle coalescing engine equipped with a counter rotating saddle type full rotor blade gravity solar turbine driven by タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar heat engine + A horizontal turbine (1h) with rotating turbines in alternating rotation direction to drive liquid lead alloy downwards + Drive various types of ships to drive rotational force and jet propulsion force + Increase ball Liquid metal is lifted and stored in the ascending device (2F) + Heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorie pressure and mass pressure, respectively + combustion gas calorie and mass All energy storage cycle coalescing engine equipped with a counter rotating saddle type full rotor blade gravity solar turbine driven by タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar heat engine + A horizontal turbine (1h) with rotating turbines in alternating rotation direction to drive liquid lead alloy downwards + Drive various types of ships to drive rotational force and jet propulsion force + Increase ball Liquid metal is lifted and stored in the ascending device (2F) + Heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorie pressure and mass pressure, respectively + combustion gas calorie and mass All energy conservation cycle coalescence engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar heat engine + A horizontal turbine (1h) with rotating turbines in alternating rotation direction to drive liquid lead alloy downwards + Drive various types of ships to drive rotational force and jet propulsion force + Increase ball Liquid metal is lifted and stored in the ascending device (2F) + Heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorie pressure and mass pressure, respectively + combustion gas calorie and mass All energy conservation cycle coalescence engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens heats compressed air to separate and store compressed heat Drives turbine with combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass Combined engine with various energy conservation cycles equipped with a counter-rotating vertical all-blade gravitational solar thermal turbine driven by. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens heats compressed air to separate and store compressed heat Drives turbine with combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass Combined engine with various energy conservation cycles equipped with a counter-rotating vertical all-blade gravitational solar thermal turbine driven by. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens heats compressed air to separate and store compressed heat Drives turbine with combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass Combined engine with various energy conservation cycles equipped with a counter-rotating vertical all-blade gravitational solar thermal turbine driven by. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けたエンジン出力発生方法の各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens heats compressed air to separate and store compressed heat Collects and saves combustion gas calorific pressure and mass pressure to drive turbine + vertical full blade gravity solar heat Various energy conservation cycle coalescing engine of engine output generation method provided with turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けたエンジン出力発生方法の各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens heats compressed air to separate and store compressed heat Collects and saves combustion gas calorific pressure and mass pressure to drive turbine + vertical full blade gravity solar heat Various energy conservation cycle coalescing engine of engine output generation method provided with turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けたエンジン出力発生方法の各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens heats compressed air to separate and store compressed heat Collects and saves combustion gas calorific pressure and mass pressure to drive turbine + vertical full blade gravity solar heat Various energy conservation cycle coalescing engine of engine output generation method provided with turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けたエンジン出力発生方法の各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens heats compressed air to separate and store compressed heat Collects and saves combustion gas calorific pressure and mass pressure to drive turbine + vertical full blade gravity solar heat Various energy conservation cycle coalescing engine of engine output generation method provided with turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けたエンジン出力発生方法の各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storage + Inlet air flow path length lens heats compressed air to separate and store compressed heat Collects and saves combustion gas calorific pressure and mass pressure to drive turbine + vertical full blade gravity solar heat Various energy conservation cycle coalescing engine of engine output generation method provided with turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Conservation use + Inlet air flow path length lens heating air compressed and heat recovery divided and stored Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass driven vertical all blades Various energy conservation cycle coalescence engine with gravity solar thermal turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation use + Intake air flow path length lens Compressed heat recovery Divided and saved Combustion gas calorie pressure and mass pressure drive each turbine + Liquid oxygen pressurization is selectable with all combustion gas calorie and mass Various energy conservation cycle coalescing engine with a vertical all-blade gravity solar turbine to drive. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation use + Intake air flow path length lens Compressed heat recovery divided and stored separately Combustion gas calorie pressure and mass pressure drive each turbine + Various type of energy storage cycle equipped with vertical type moving blade gravity solar turbine Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Conservation use + Intake air flow path length lens Compressed heat recovery by dividing and storing Combustion gas calorie pressure and mass pressure each driving turbine + Combustion gas calorie and mass driven counter-rotating vertical type Various energy conservation cycle coalescing engine equipped with all blade gravity solar thermal turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation use + Compressed heat recovery by storing intake air flow path length lens Divided and stored combustion gas turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass driven inverted vertical type Various energy conservation cycle coalescing engine equipped with all blade gravity solar thermal turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+タービンを液体タリウムを下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Accelerating driving of turbine with liquid thallium downward + Heated air (28a) with intake air flow path length lens by heat pump (1G) and air heat exchanger (2X) Increasing injection propulsion output with combustion gas calorie and mass aiming at infinity + Increase and store liquid metal with increasing sphere lift device (2F) + Combustion with compressed heat recovery divided storage with intake air flow path length lens Various energy storage cycle coalescence engines equipped with vertical turbine blade gravity solar turbines that drive the turbine with gas calorie pressure and mass pressure, respectively + combustion gas calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens The turbine is driven by the combustion gas calorie pressure and mass pressure, which is obtained by separately storing the compressed air in the compressed heat recovery, and the vertical-type full-blade gravity solar turbine driven by the combustion gas calorie and mass that can be selected by liquid oxygen injection. Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ビスマスを下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate liquid bismuth downward driving + heated air (28a) with suction air flow path length lens (1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorific value and mass + Increase sphere lift device (2F) to save and use liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines equipped with a vertical all-blade gravity solar turbine that drives the turbine with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed heat recovered by compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by three types of turbines + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate the liquid zinc downward + heated air (28a) heat pump with suction air flow path length lens (1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorific value and mass + Increase sphere lift device (2F) to save and use liquid metal + Intake air flow path length lens The turbine is driven by the combustion gas calorie pressure and mass pressure, each of which is heated and compressed by heat recovery in a separate manner. + Various types equipped with a counter-rotating vertical type full-rotor gravity gravity solar turbine driven by the combustion gas calorie and mass. Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体タリウム合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to drive acceleration of liquid thallium alloy downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming to infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increase ball lift device (2F) + Intake air flow path length Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed heat recovered by heating air with a lens, and a counter-rotating vertical-type full-rotor gravity gravity solar turbine driven by the combustion gas calorie and mass is provided. Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+被覆タンタル合金球を加速駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Accelerating the output increasing sphere (2E) as a small diameter + Compressed heat recovery divided storage of heated air with intake air flow path length lens Various energy conservation cycle coalescence engines equipped with a counter-rotating vertical full-blade gravity solar heat turbine that drives the turbine with the combustion gas calorie pressure and mass pressure + accelerated drive of coated tantalum alloy spheres. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Accelerating the output increasing sphere (2E) as a small diameter + Compressed heat recovery divided storage of heated air with intake air flow path length lens Various energy storage cycle coalescence engines equipped with a counter-rotating vertical full-blade gravity solar thermal turbine that drives the turbine with the combustion gas calorie pressure and mass pressure + accelerated drive of the liquid lead alloy, respectively. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体錫を加速転がり接触駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Accelerating the output increasing sphere (2E) as a small diameter + Compressed heat recovery divided storage of heated air with intake air flow path length lens Various energy storage cycle coalescence engines equipped with a counter-rotating vertical-type full-wing blade gravity solar turbine that drives the turbine with the calorific pressure and mass pressure of the combustion gas, and the accelerated rolling contact of liquid tin. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛を加速転がり接触駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Accelerating the output increasing sphere (2E) as a small diameter + Compressed heat recovery divided storage of heated air with intake air flow path length lens Various energy storage cycle coalescence engines equipped with counter-rotating vertical type full-blade gravity solar heat turbines that drive the turbines with the calorific pressure and mass pressure of the combustion gas + accelerated rolling contact driving of liquid lead. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Accelerating the output increasing sphere (2E) as a small diameter + Compressed heat recovery divided storage of heated air with intake air flow path length lens Various energy storage cycle coalescence engines equipped with a counter-rotating vertical full-blade gravity solar thermal turbine that drives the turbine with the combustion gas calorie pressure and mass pressure + accelerated drive of the liquid lead alloy, respectively. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+出力増大球(2E)を小径として加速タービン駆動する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + turbine with alternating rotation direction on the horizontal axis (1h) to accelerate the liquid lead alloy downward + power increasing ball (2E) with small diameter to drive the accelerated turbine + suction The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing the compressed air by heating the air flow through the air flow length lens. Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+出力増大球(2E)を小径として加速タービン駆動する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate the mercury downward + power increasing sphere (2E) small diameter to drive the accelerated turbine + intake air flow Turbine is driven by combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by compressed heat recovery by path length lens + vertical oxygen moving blade driven by all of combustion gas calorie and mass selectable for liquid oxygen injection Various energy conservation cycle coalescence engine with gravity solar thermal turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+出力増大球(2E)を小径として加速タービン駆動する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate the mercury downward + power increasing sphere (2E) small diameter to drive the accelerated turbine + intake air flow Various energy storage cycle coalescence engines equipped with a vertical all-blade gravity solar turbine that drives the turbine with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air with compressed heat recovery by a path length lens. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+出力増大球(2E)を小径として加速タービン駆動する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate the mercury downward + power increasing sphere (2E) small diameter to drive the accelerated turbine + intake air flow The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing the compressed air by the path length lens. Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+出力増大球(2E)を小径として加速タービン駆動する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate the mercury downward + power increasing sphere (2E) small diameter to drive the accelerated turbine + intake air flow The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing the heat of the heated air by the path length lens and stored separately, and the counter-rotating vertical-type full blade gravity solar turbine driven by the combustion gas calorie and mass Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotating turbines rotating alternately to accelerate mercury downward + various aircrafts such as space shuttles to drive rotational jet propulsion + increase The liquid metal is lifted and stored in the ball rising device (2F) + the heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorie pressure and mass pressure, respectively + combustion gas calorie Various energy conservation cycle coalescing engines equipped with a vertical all-blade gravity solar turbine driven by the whole mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体金属(2E)を加速駆動するタービンとした各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotating turbines rotating alternately to accelerate mercury downward + various aircrafts such as space shuttles to drive rotational jet propulsion + increase The liquid metal is lifted and stored in the ball lift device (2F). + The turbine is driven by the combustion gas calorific pressure and mass pressure obtained by separately storing the compressed air by the intake air flow path length lens. + Liquid metal (2E ) Is a turbine that accelerates and drives various energy storage cycles. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotating turbines rotating alternately to accelerate mercury downward + various aircrafts such as space shuttles to drive rotational jet propulsion + increase Liquid metal is lifted and stored in the ball lift device (2F) + Heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotating turbines rotating alternately to accelerate mercury downward + various aircrafts such as space shuttles to drive rotational jet propulsion + increase The liquid metal is lifted and stored in the ball rising device (2F) + the heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorie pressure and mass pressure, respectively + combustion gas calorie Various energy conservation cycle coalescing engines equipped with counter-rotating saddle-type all-blade gravity solar turbines driven by the whole mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotating turbines rotating alternately to accelerate mercury downward + various aircrafts such as space shuttles to drive rotational jet propulsion + increase The liquid metal is lifted and stored in the ball rising device (2F) + the heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorie pressure and mass pressure, respectively + combustion gas calorie Various energy conservation cycle coalescing engines equipped with counter-rotating saddle-type full rotor blade gravity solar turbines driven by the whole mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+被覆白金合金球を加速駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Compressed heat recovery by the intake air flow path long lens The turbine is driven by the calorific pressure and mass pressure of the combustion gas, which is divided and stored separately + The counter-rotating vertical rotor blades that are driven by acceleration of the coated platinum alloy balls Various energy conservation cycle coalescence engine with gravity solar thermal turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Inlet air flow length lens to heat the compressed air, compressed heat recovery Divided and stored Combustion gas calorie pressure and mass pressure to drive turbine + Rotating liquid lead alloy accelerated rotor gravity Various energy conservation cycle coalescence engine with solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速転がり接触駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Compressed heat recovery by the intake air flow length lens, and the turbine is driven by the combustion gas calorie pressure and mass pressure obtained by separately storing the heat + Double reversing saddle type full drive that drives the liquid lead alloy by accelerated rolling contact Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体カドミウムを加速転がり接触駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Inverted vertical type moving blade driven by accelerating rolling contact with liquid cadmium by driving the turbine with combustion gas calorific pressure and mass pressure, respectively, by heating and compressing heat recovered by the intake air flow length lens Various energy conservation cycle coalescence engine with gravity solar thermal turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Inlet air flow length lens to heat the compressed air, compressed heat recovery Divided and stored Combustion gas calorie pressure and mass pressure to drive turbine + Rotating liquid lead alloy accelerated rotor gravity Various energy conservation cycle coalescence engine with solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Combining various energy conservation cycles with a vertical all-blade gravity solar turbine driven by combustion gas calorific value and mass to drive the turbine with combustion gas calorific pressure and mass pressure, respectively, by separately storing compressed heat recovered from compressed air organ. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ビスマスを下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate liquid bismuth downward driving + heated air (28a) with suction air flow path length lens (1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorific value and mass + Increase sphere lift device (2F) to save and use liquid metal + Intake air flow path length lens The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by separately storing the compressed air in the compressed heat recovery and heating, and the vertical all-blade gravity solar turbine driven by the combustion gas calorie and mass that can be selected by liquid oxygen injection Various energy storage cycle coalescing engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by three types of turbines + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate the liquid zinc downward + heated air (28a) heat pump with suction air flow path length lens (1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorific value and mass + Increase sphere lift device (2F) to save and use liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines equipped with a vertical all-blade gravity solar turbine that drives the turbine with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed heat recovered by compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けてタンタル合金球球を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine 3 types driven liquid metal gravity solar engine + horizontal turbine (1h) with rotating turbines rotating alternately to accelerate tantalum alloy spheres downwardly driving + heated air (28a) with intake air flow path length lens Increase the propulsion output by combustion gas heat quantity and mass aiming at infinity with heat pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increasing ball lift device (2F) + Intake air flow path The turbine is driven by the combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing the heat of the air heated by the long lens, and the turbine is driven by the combustion gas calorie and mass. Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid zinc alloy downward + heated air (28a) with suction air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming to infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increase ball lift device (2F) + Intake air flow path length Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed heat recovered by heating air with a lens, and a counter-rotating vertical-type full-rotor gravity gravity solar turbine driven by the combustion gas calorie and mass is provided. Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+モリブデン鋼球を加速駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescence engines equipped with counter-rotating vertical all-blade gravity solar heat turbines that drive turbines with calorific pressure and mass pressure of combustion gas separately stored in heat recovery + acceleration of molybdenum steel balls. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体錫を加速駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescence engines equipped with a counter-rotating vertical-type full-rotor gravity gravity solar turbine that drives turbines with calorie pressure and mass pressure of combustion gas separately stored in heat recovery + acceleration drive of liquid tin. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速転がり接触駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescence engines equipped with counter-rotating vertical-type full-blade gravity solar thermal turbines that drive turbines with the calorific pressure and mass pressure of combustion gas separately stored in heat recovery + accelerated rolling contact with liquid lead alloys. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛を加速転がり接触駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescence engines equipped with counter-rotating vertical-type full-rotor gravity gravity solar turbines that drive turbines with calorific pressure and mass pressure of combustion gas separately stored in heat recovery + accelerated rolling contact with liquid lead. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+水銀を加速駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy conservation cycle coalescence engines equipped with counter-rotating vertical type full-blade gravity solar thermal turbines that drive turbines with calorie pressure and mass pressure of combustion gas that are divided and stored in heat recovery + acceleration of mercury. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+被覆銀球を加速駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming to infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increase ball lift device (2F) + Intake air flow path length The turbine is driven by the combustion gas calorie pressure and mass pressure, which is obtained by separately storing the heat heated by the lens and recovering the compressed air by the lens. Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+より液体カドミウム合金を加速駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming to infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increase ball lift device (2F) + Intake air flow path length Various types of energy provided by a counter-rotating vertical-type full-wing blade gravity solar turbine that drives a turbine with a calorific pressure and a mass pressure of combustion gas obtained by separately dividing and storing compressed air for heating air heated by a lens, and accelerating and driving a liquid cadmium alloy. Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines equipped with a vertical-type full-rotor gravity gravity solar turbine that drives turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing heated air in compressed heat recovery division. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens The turbine is driven by the combustion gas calorific pressure and mass pressure, which is obtained by separately storing the compressed heat recovered from the heated air. Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens The turbine is driven by the combustion gas calorie pressure and mass pressure, which is obtained by separately storing the compressed air by collecting the heat of heating. Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar thermal engine + Horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate mercury downwards + Drive various types of aircraft such as space shuttles to drive rotational force propulsion + Increase The liquid metal is lifted and stored in the ball rising device (2F) + the heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorie pressure and mass pressure, respectively + combustion gas calorie Various energy conservation cycle coalescing engines equipped with a vertical all-blade gravity solar turbine driven by all the mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotating turbines rotating alternately to accelerate mercury downward + various aircrafts such as space shuttles to drive rotational jet propulsion + increase The liquid metal is lifted and stored in the sphere lift device (2F) + the heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively + liquid oxygen injection Various energy conservation cycle coalescing engines equipped with a vertical all-blade gravity solar turbine driven by all of the selectable combustion gas calories and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotating turbines rotating alternately to accelerate mercury downward + various aircrafts such as space shuttles to drive rotational jet propulsion + increase Liquid metal is lifted and stored in the ball lift device (2F) + Heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with bladed gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar thermal engine + Horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate mercury downwards + Drive various types of aircraft such as space shuttles to drive rotational force propulsion + Increase The liquid metal is lifted and stored in the ball rising device (2F) + the heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorie pressure and mass pressure, respectively + combustion gas calorie Various energy conservation cycle coalescing engines equipped with a counter rotating saddle-type all-blade gravity solar turbine driven by the whole mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar thermal engine + Horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate mercury downwards + Drive various types of aircraft such as space shuttles to drive rotational force propulsion + Increase The liquid metal is lifted and stored in the ball rising device (2F) + the heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorie pressure and mass pressure, respectively + combustion gas calorie Various energy conservation cycle coalescing engines equipped with a counter rotating saddle-type full rotor blade gravity solar turbine driven by the whole mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+被覆金合金球を加速駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Compressed heat recovery by the intake air flow path length lens The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by separately storing the heat + The counter-rotating vertical all blades driven by acceleration of the coated gold alloy ball Various energy conservation cycle coalescence engine with gravity solar turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Inlet air flow length lens to heat the compressed air, compressed heat recovery Divided and stored Combustion gas calorie pressure and mass pressure to drive turbine + Rotating liquid lead alloy accelerated rotor gravity Various energy conservation cycle coalescence engine with solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体カドミウムを加速転がり接触駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Inverted vertical type moving blade driven by accelerating rolling contact with liquid cadmium by driving the turbine with combustion gas calorific pressure and mass pressure, respectively, by heating and compressing heat recovered by the intake air flow length lens Various energy conservation cycle coalescence engine with gravity solar turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体インジウムを加速転がり接触駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Turn the intake air passage length lens to heat the compressed air and separate and store the combustion gas to drive the turbine with the calorie pressure and mass pressure of the combustion gas Various energy conservation cycle coalescence engine with gravity solar turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体ガリウムを加速駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Compressed heat recovery by the intake air flow length lens, and the turbine is driven by the calorific pressure and mass pressure of the combustion gas obtained by separately storing the heat + The counter-rotating saddle type full rotor blade gravity solar heat that accelerates the liquid gallium Various energy storage cycle coalescence engine with turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ビスマスを下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate liquid bismuth downward driving + heated air (28a) with suction air flow path length lens (1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorific value and mass + Increase sphere lift device (2F) to save and use liquid metal + Intake air flow path length lens The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by separately storing the compressed air in the compressed heat recovery and heating, and various energy conservation cycles provided with a vertical all-blade gravity solar turbine driven by all combustion gas calorie and mass Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by three types of turbines + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate the liquid zinc downward + heated air (28a) heat pump with suction air flow path length lens (1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorific value and mass + Increase sphere lift device (2F) to save and use liquid metal + Intake air flow path length lens The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by separately storing the compressed air in the compressed heat recovery and heating, and the vertical all-blade gravity solar turbine driven by the combustion gas calorie and mass that can be selected by liquid oxygen injection Various energy storage cycle coalescing engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体タリウム合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to drive acceleration of liquid thallium alloy downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming to infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increase ball lift device (2F) + Intake air flow path length Various energy storage cycle coalescing engines equipped with a + type full rotor blade gravity solar heat turbine that drives the turbine with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed heat recovered by the lens. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid zinc alloy downward + heated air (28a) with suction air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming to infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increase ball lift device (2F) + Intake air flow path length The turbine is driven by the combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing the heat of the air heated by the lens, and the turbine is driven by the combustion gas calorie and mass. Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ガリウム合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid gallium alloy downward + heated air (28a) with suction air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming to infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increase ball lift device (2F) + Intake air flow path length Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed heat recovered by heating air with a lens, and a counter-rotating vertical-type full-rotor gravity gravity solar turbine driven by the combustion gas calorie and mass is provided. Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+被覆モリブデン鋼球を加速駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescence engines equipped with counter-rotating vertical-type full-rotor gravity solar thermal turbines that drive turbines with calorific pressure and mass pressure of combustion gas separately stored in heat recovery + acceleration of coated molybdenum steel balls. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛を加速駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescence engines equipped with counter-rotating vertical type full-blade gravity solar heat turbines that drive turbines with calorific pressure and mass pressure of combustion gas that are stored separately in heat recovery and accelerate liquid lead. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体インジウム合金を加速転がり接触駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescence engines equipped with counter-rotating vertical-type full-blade gravitational solar turbines that drive turbines with calorific pressure and mass pressure of combustion gas separately stored in heat recovery + accelerating rolling contact with liquid indium alloys. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体インジウム合金を加速転がり接触駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescence engines equipped with counter-rotating vertical-type full-blade gravitational solar turbines that drive turbines with calorific pressure and mass pressure of combustion gas separately stored in heat recovery + accelerating rolling contact with liquid indium alloys. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体インジウム合金を加速駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescing engines equipped with a counter-rotating vertical all-blade gravity solar turbine that drives the turbine with the calorific pressure and mass pressure of the combustion gas divided and stored in heat recovery + accelerates the liquid indium alloy. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Combining various energy conservation cycles with a vertical all-blade gravity solar turbine driven by combustion gas calorific value and mass to drive the turbine with combustion gas calorific pressure and mass pressure, respectively, by separately storing compressed heat recovered from compressed air organ. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens The turbine is driven by the combustion gas calorie pressure and mass pressure, which is obtained by separately storing the compressed air in the compressed heat recovery, and the vertical-type full-blade gravity solar turbine driven by the combustion gas calorie and mass that can be selected by liquid oxygen injection Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens Various energy storage cycle coalescence engines equipped with a vertical-type full-rotor gravity gravity solar turbine that drives turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing heated air in compressed heat recovery division. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens The turbine is driven by the combustion gas calorific pressure and mass pressure, which is obtained by separately storing the compressed heat recovered from the heated air. Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase sphere lift device (2F) to use and store liquid metal + Intake air flow path length lens The turbine is driven by the combustion gas calorie pressure and mass pressure, which is obtained by separately storing the compressed air by collecting the heat of heating. Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar thermal engine + Horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate mercury downwards + Drive various types of aircraft such as space shuttles to drive rotational force propulsion + Increase The liquid metal is lifted and stored in the ball rising device (2F) + the heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorie pressure and mass pressure, respectively + combustion gas calorie Various energy conservation cycle coalescing engines equipped with a vertical all-blade gravity solar turbine driven by all the mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotating turbines rotating alternately to accelerate mercury downward + various aircrafts such as space shuttles to drive rotational jet propulsion + increase The liquid metal is lifted and stored in the sphere lift device (2F) + the heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively + liquid oxygen injection Various energy conservation cycle coalescing engines equipped with a vertical all-blade gravity solar turbine driven by all of the selectable combustion gas calories and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotating turbines rotating alternately to accelerate mercury downward + various aircrafts such as space shuttles to drive rotational jet propulsion + increase Liquid metal is lifted and stored in the ball lift device (2F) + Heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with bladed gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar thermal engine + Horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate mercury downwards + Drive various types of aircraft such as space shuttles to drive rotational force propulsion + Increase The liquid metal is lifted and stored in the ball rising device (2F) + the heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorie pressure and mass pressure, respectively + combustion gas calorie Various energy conservation cycle coalescing engines equipped with a counter rotating saddle-type all-blade gravity solar turbine driven by the whole mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar thermal engine + Horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate mercury downwards + Drive various types of aircraft such as space shuttles to drive rotational force propulsion + Increase The liquid metal is lifted and stored in the ball rising device (2F) + the heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorie pressure and mass pressure, respectively + combustion gas calorie Various energy conservation cycle coalescing engines equipped with a counter rotating saddle-type full rotor blade gravity solar turbine driven by the whole mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+被覆鉛球を加速駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Inlet air flow length lens to heat the compressed air and store the compressed heat separately to drive the turbine with the combustion gas calorie pressure and mass pressure + Accelerate the coated lead sphere to drive the counter rotating saddle type full blade gravity solar heat Various energy storage cycle coalescence engine with turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体カドミウムを加速駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Compressed heat recovery by the intake air flow length lens, and the turbine is driven by the calorific pressure and mass pressure of the combustion gas obtained by separately storing the heat + The counter-rotating saddle type full rotor blade gravity solar heat that accelerates the liquid cadmium Various energy storage cycle coalescence engine with turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体錫合金を加速転がり接触駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Compressed heat recovery by the intake air flow path length lens The turbine is driven by the calorific pressure and mass pressure of the combustion gas obtained by separately storing the heat + The counter-rotating vertical full-motion that drives the liquid tin alloy by rolling contact Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体錫合金を加速転がり接触駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Compressed heat recovery by the intake air flow path length lens The turbine is driven by the calorific pressure and mass pressure of the combustion gas obtained by separately storing the heat + The counter-rotating vertical full-motion that drives the liquid tin alloy by rolling contact Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Inlet air flow length lens to heat the compressed air, compressed heat recovery Divided and stored Combustion gas calorie pressure and mass pressure to drive turbine + Rotating liquid lead alloy accelerated rotor gravity Various energy conservation cycle coalescence engine with solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by three types of turbines + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate the liquid zinc downward + heated air (28a) heat pump with suction air flow path length lens (1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorific value and mass + Increase sphere lift device (2F) to save and use liquid metal + Intake air flow path length lens The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by separately storing the compressed air in the compressed heat recovery and heating, and various energy conservation cycles provided with a vertical all-blade gravity solar turbine driven by all combustion gas calorie and mass Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体タリウム合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to drive acceleration of liquid thallium alloy downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming to infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increase ball lift device (2F) + Intake air flow path length Turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing the heat of the air heated by the lens by the lens + the vertical type moving blade gravity solar heat driven by all the combustion gas calorie and mass that can be selected by liquid oxygen injection Various energy storage cycle coalescence engine with turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体亜鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid zinc alloy downward + heated air (28a) with suction air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming to infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increase ball lift device (2F) + Intake air flow path length Various energy storage cycle coalescing engines equipped with a + type full rotor blade gravity solar heat turbine that drives the turbine with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed heat recovered by the lens. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体ガリウム合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   3 types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid gallium alloy downward + heated air (28a) with suction air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming to infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increase ball lift device (2F) + Intake air flow path length The turbine is driven by the combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing the heat of the air heated by the lens, and the turbine is driven by the combustion gas calorie and mass. Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming to infinity with pump (1G) and air heat exchanger (2X) + Increase and store liquid metal with increase ball lift device (2F) + Intake air flow path length Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed heat recovered by heating air with a lens, and a counter-rotating vertical-type full-rotor gravity gravity solar turbine driven by the combustion gas calorie and mass is provided. Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+モリブデン鋳鉄球を加速駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescence engines equipped with counter-rotating vertical-type full-rotor gravity solar thermal turbines that drive turbines with calorific pressure and mass pressure of combustion gas that are stored separately in heat recovery and acceleration of molybdenum cast iron balls. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛を加速駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescence engines equipped with counter-rotating vertical type full-blade gravity solar heat turbines that drive turbines with calorific pressure and mass pressure of combustion gas that are stored separately in heat recovery and accelerate liquid lead. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体鉛合金を加速転がり接触駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy storage cycle coalescence engines equipped with counter-rotating vertical-type full-blade gravity solar thermal turbines that drive turbines with the calorific pressure and mass pressure of combustion gas separately stored in heat recovery + accelerated rolling contact with liquid lead alloys. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+水銀を加速転がり接触駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the turbine blades that generate output + Liquid metal is lifted and stored by using the rising sphere lift device (2F) + Heated air is compressed by the intake air flow path length lens Various energy conservation cycle coalescence engines equipped with counter-rotating vertical-type full-rotor gravity gravity solar turbines that drive turbines with calorific pressure and mass pressure of combustion gas that are divided and stored in heat recovery + accelerated rolling contact with mercury. タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) double turbine 3 type liquid metal gravity solar heat engine driven by the turbine + equipment method to make all the power generation turbine blades + rising ball riser (2F) to save and use liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed air by the flow path length lens, and the combustion gas calorie pressure and mass pressure are driven. Various energy storage cycle coalescing engine. タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 4x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 5 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 6 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9x turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive liquid metal downwards + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Various energy storage cycle coalescence engines equipped with vertical type moving blade gravity solar turbine driven by all of combustion gas calorie and mass that can be driven by each plus + liquid oxygen injection. タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical type moving blade gravity solar turbine that drives each turbine at タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravitational solar turbine that drives the turbine at + and all the combustion gas heat and mass. タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times turbine 3 types of liquid metal gravity solar engine + power increasing sphere (2E) accelerated downward by gravitational acceleration Turbine driving + various vehicles driving rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with all-drive vertical rotor blade gravity solar turbines. タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The equipment (2F) is used to store and store liquid metal + The intake air flow path length lens can be used to drive the turbine with combustion gas calorie pressure and mass pressure obtained by separately storing compressed air with compressed heat recovery + Liquid oxygen injection can be selected Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that is driven by all the combustion gas heat and mass. タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The device (2F) uses liquid metal ascending and storing + Inlet air flow path length lens is used to heat the compressed air by dividing and storing the combustion gas, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with solar heat turbine. タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating saddle-type all-blade gravity solar turbine that is driven entirely. タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating vertical all blade gravity solar thermal turbine driven in all. タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction, liquid lead alloy is accelerated downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 20 times the power of three types of turbines driven by liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times the power of 3 types of turbines driven by liquid metal gravity solar engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction + liquid lead alloy accelerated downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising sphere climbing device (2F) ascending and storing the liquid metal + intake air The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing the compressed air by the flow path length lens, and the vertical combustion blade gravity solar heat turbine driven by the combustion gas calorie and mass is provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by the flow path length lens, and the vertical movement is driven by all the combustion gas calorie and mass selectable for liquid oxygen injection Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 25-fold turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all output generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that drives turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air with heat from a flow path lens. タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) double turbine 3 type liquid metal gravity solar heat engine driven by the turbine + equipment method to make all the power generation turbine blades + rising ball riser (2F) to save and use liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure obtained by dividing the heat of compressed air by the flow path length lens and stored separately. Various energy storage cycle coalescing engine. タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising sphere lift device (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed air by the flow path length lens, and the combustion gas calorie pressure and mass pressure are driven. Various energy storage cycle coalescing engine. タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 4x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 5 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 6 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9x turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive liquid metal downwards + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Various energy storage cycle coalescence engines equipped with vertical type moving blade gravity solar turbine driven by all of combustion gas calorie and mass that can be driven by each plus + liquid oxygen injection. タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical type moving blade gravity solar turbine that drives each turbine at タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 12-times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravitational solar turbine that drives the turbine at + and all the combustion gas heat and mass. タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with all-drive vertical rotor blade gravity solar turbines. タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The equipment (2F) is used to store and store liquid metal + The intake air flow path length lens can be used to drive the turbine with combustion gas calorie pressure and mass pressure obtained by separately storing compressed air with compressed heat recovery + Liquid oxygen injection can be selected Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that is driven by all the combustion gas heat and mass. タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses liquid metal ascending and storing + Inlet air flow path length lens is used to heat the compressed air by dividing and storing the combustion gas, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with solar heat turbine. タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating saddle-type all-blade gravity solar turbine that is driven entirely. タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating vertical all blade gravity solar thermal turbine driven in all. タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 20 times the power of three types of turbines driven by liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times the power of 3 types of turbines driven by liquid metal gravity solar engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction + liquid lead alloy accelerated downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 23 times the power of three types of turbines driven by liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction + liquid lead alloy accelerated downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing the compressed air by the flow path length lens, and the vertical combustion blade gravity solar heat turbine driven by the combustion gas calorie and mass is provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 25-fold turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all output generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by the flow path length lens, and the vertical movement is driven by all the combustion gas calorie and mass selectable for liquid oxygen injection Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) double turbine 3 type liquid metal gravity solar heat engine driven by the turbine + equipment method to make all the power generation turbine blades + rising ball riser (2F) to save and use liquid metal + intake air Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that drives turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air with heat from a flow path lens. タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising sphere lift device (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure obtained by dividing the heat of compressed air by the flow path length lens and stored separately. Various energy storage cycle coalescing engine. タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times turbine 3 type liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + increase sphere climbing device (2F) to save and use liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed air by the flow path length lens, and the combustion gas calorie pressure and mass pressure are driven. Various energy storage cycle coalescing engine. タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 5 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 6 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Various energy storage cycle coalescence engines equipped with vertical type moving blade gravity solar turbine driven by all of combustion gas calorie and mass that can be driven by each plus + liquid oxygen injection. タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical type moving blade gravity solar turbine that drives each turbine at タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravitational solar turbine that drives the turbine at + and all the combustion gas heat and mass. タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with all-drive vertical rotor blade gravity solar turbines. タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The equipment (2F) is used to store and store liquid metal + The intake air flow path length lens can be used to drive the turbine with combustion gas calorie pressure and mass pressure obtained by separately storing compressed air with compressed heat recovery + Liquid oxygen injection can be selected Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that is driven by all the combustion gas heat and mass. タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses liquid metal ascending and storing + Inlet air flow path length lens is used to heat the compressed air by dividing and storing the combustion gas, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with solar heat turbine. タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating saddle-type all-blade gravity solar turbine that is driven entirely. タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 19 times turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating vertical all blade gravity solar thermal turbine driven in all. タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 20 times the power of three types of turbines driven by liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times the power of 3 types of turbines driven by liquid metal gravity solar engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction + liquid lead alloy accelerated downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 23 times the power of three types of turbines driven by liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction + liquid lead alloy accelerated downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 25-fold turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all output generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing the compressed air by the flow path length lens, and the vertical combustion blade gravity solar heat turbine driven by the combustion gas calorie and mass is provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) double turbine 3 type liquid metal gravity solar heat engine driven by the turbine + equipment method to make all the power generation turbine blades + rising ball riser (2F) to save and use liquid metal + intake air Turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by the flow path length lens, and the vertical movement is driven by all the combustion gas calorie and mass selectable for liquid oxygen injection Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising sphere lift device (2F) to use and store liquid metal + intake air Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that drives turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air with heat from a flow path lens. タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times turbine 3 type liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + increase sphere climbing device (2F) to save and use liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure obtained by dividing the heat of compressed air by the flow path length lens and stored separately. Various energy storage cycle coalescing engine. タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times turbine driven 3 types of liquid metal gravity solar heat engine + Equipment method to make all the power generation turbine blades + Increased sphere rising device (2F) to save and use liquid metal + Intake air Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed air by the flow path length lens, and the combustion gas calorie pressure and mass pressure are driven. Various energy storage cycle coalescing engine. タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 6 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 12-times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Various energy storage cycle coalescence engines equipped with vertical type moving blade gravity solar turbine driven by all of combustion gas calorie and mass that can be driven by each plus + liquid oxygen injection. タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical type moving blade gravity solar turbine that drives each turbine at タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine 3 types of driving liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravitational solar turbine that drives the turbine at + and all the combustion gas heat and mass. タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times the turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with all-drive vertical rotor blade gravity solar turbines. タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The equipment (2F) is used to store and store liquid metal + The intake air flow path length lens can be used to drive the turbine with combustion gas calorie pressure and mass pressure obtained by separately storing compressed air with compressed heat recovery + Liquid oxygen injection can be selected Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that is driven by all the combustion gas heat and mass. タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses liquid metal ascending and storing + Inlet air flow path length lens is used to heat the compressed air by dividing and storing the combustion gas, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with solar heat turbine. タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 19 times turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating saddle-type all-blade gravity solar turbine that is driven entirely. タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating vertical all blade gravity solar thermal turbine driven in all. タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times the power of 3 types of turbines driven by liquid metal gravity solar engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction + liquid lead alloy accelerated downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 23 times the power of three types of turbines driven by liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction + liquid lead alloy accelerated downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) is a 25x turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) double turbine 3 type liquid metal gravity solar heat engine driven by the turbine + equipment method to make all the power generation turbine blades + rising ball riser (2F) to save and use liquid metal + intake air The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing the compressed air by the flow path length lens, and the vertical combustion blade gravity solar heat turbine driven by the combustion gas calorie and mass is provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + rising sphere lift device (2F) to use and store liquid metal + intake air Turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by the flow path length lens, and the vertical movement is driven by all the combustion gas calorie and mass selectable for liquid oxygen injection Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times turbine 3 type liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + increase sphere climbing device (2F) to save and use liquid metal + intake air Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that drives turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air with heat from a flow path lens. タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times turbine driven 3 types of liquid metal gravity solar heat engine + Equipment method to make all the power generation turbine blades + Increased sphere rising device (2F) to save and use liquid metal + Intake air Turbine is driven by combustion gas calorie pressure and mass pressure obtained by dividing the heat of compressed air by the flow path length lens and stored separately. Various energy storage cycle coalescing engine. タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6 times turbine 3 types of liquid metal gravity solar heat engine + Equipment method to make all the power generation turbine blades + Increased sphere lift device (2F) to save and use liquid metal + Intake air Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed air by the flow path length lens, and the combustion gas calorie pressure and mass pressure are driven. Various energy storage cycle coalescing engine. タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Various energy storage cycle coalescence engines equipped with vertical type moving blade gravity solar turbine driven by all of combustion gas calorie and mass that can be driven by each plus + liquid oxygen injection. タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical type moving blade gravity solar turbine that drives each turbine at タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times the turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) to provide rotational turbines alternately rotating the liquid metal to accelerate downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravitational solar turbine that drives the turbine at + and all the combustion gas heat and mass. タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16-times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with all-drive vertical rotor blade gravity solar turbines. タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The equipment (2F) is used to store and store liquid metal + The intake air flow path length lens can be used to drive the turbine with combustion gas calorie pressure and mass pressure obtained by separately storing compressed air with compressed heat recovery + Liquid oxygen injection can be selected Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that is driven by all the combustion gas heat and mass. タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 19 times turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising The device (2F) uses liquid metal ascending and storing + Inlet air flow path length lens is used to heat the compressed air by dividing and storing the combustion gas, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with solar heat turbine. タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating saddle-type all-blade gravity solar turbine that is driven entirely. タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driven by rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating vertical all blade gravity solar thermal turbine driven in all. タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 22-fold turbine driven 3 types of liquid metal gravity solar heat engine + configuration and method of accelerating output augmenting sphere (2E) The turbine is driven by the combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing the compressed air by the intake air flow path long lens, and the vertical combustion blade gravity solar thermal turbine driven by all combustion gas calorie and mass Various energy conservation cycle coalescence engines provided. タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times the turbine 3 types of liquid metal gravity solar heat engine + configuration and method of accelerating the power increasing sphere (2E) ++ using the rising sphere rising device (2F) to save and use the liquid metal + Turbine is driven by combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed heat by compressed air recovery by intake air flow path length lens, and vertical type driven by all combustion gas calorie and mass selectable for liquid oxygen injection Various energy conservation cycle coalescing engine equipped with all blade gravity solar thermal turbine. タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the turbine three types of liquid metal gravity solar engine + configuration and method of accelerating the power increase sphere (2E) ++ use the increase sphere ascent device (2F) to save and use the liquid metal + Various energy storage cycle coalescing engines equipped with a + type full-rotor-gravity solar power turbine that drives the turbine with calorific pressure and mass pressure of combustion gas obtained by dividing and storing compressed air by the intake air flow path long lens. タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 25-fold turbine driven 3 types of liquid metal gravity solar heat engine + configuration and method of accelerating output sphere (2E) ++ Increased storage of liquid metal with increase sphere lift device (2F) + Turbine is driven by the combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing the compressed air by the intake air flow path length lens, and it is driven by the combustion gas calorie and mass. Various energy conservation cycle coalescence engine with solar heat turbine. タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) is a liquid metal gravity solar thermal engine driven by 3 types of turbines with double the turbine + configuration and method for accelerating the power augmenting sphere (2E) ++ The liquid metal is lifted and stored in the augmenting sphere climbing device (2F) Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed air by the intake air flow path length lens, and the combustion gas is driven by the combustion gas calorie and mass. Various energy conservation cycle coalescence engine with solar heat turbine. タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times turbine driven 3 types of liquid metal gravity solar heat engine + configuration and method of accelerating output sphere (2E) ++ Increased storage and use of liquid metal with increasing sphere rising device (2F) + The turbine is driven by the combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing the compressed air by the intake air flow path long lens, and the vertical combustion blade gravity solar thermal turbine driven by all combustion gas calorie and mass Various energy conservation cycle coalescence engines provided. タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) quadruple turbine three-type driving liquid metal gravity solar engine + configuration and method for accelerating output augmenting sphere (2E) Turbine is driven by combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed heat by compressed air recovery by intake air flow path length lens, and vertical type driven by all combustion gas calorie and mass selectable for liquid oxygen injection Various energy conservation cycle coalescing engine equipped with all blade gravity solar thermal turbine. タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times turbine driven 3 types of liquid metal gravity solar heat engine + configuration and method of accelerating the power increasing sphere (2E) + + using the rising sphere rising device (2F) to save and use the liquid metal + Various energy storage cycle coalescing engines equipped with a + type full-rotor-gravity solar power turbine that drives the turbine with calorific pressure and mass pressure of combustion gas obtained by dividing and storing compressed air by the intake air flow path long lens. タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6x turbine 3 types of liquid metal gravity solar thermal engine + configuration and method of accelerating output sphere (2E) ++ Increase and save liquid metal with increase sphere rising device (2F) + Turbine is driven by the combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing the compressed air by the intake air flow path length lens, and it is driven by the combustion gas calorie and mass. Various energy conservation cycle coalescence engine with solar heat turbine. タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times turbine driven 3 types of liquid metal gravity solar engine + configuration and method for accelerating output sphere (2E) ++ Increased storage of liquid metal with increased sphere rising device (2F) + Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed air by the intake air flow path length lens, and the combustion gas is driven by the combustion gas calorie and mass. Various energy conservation cycle coalescence engine with solar heat turbine. タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine driven by driving and combustion gas heat and mass. タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Various energy storage cycle coalescing engines equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat quantity and mass that can be selected to drive + liquid oxygen injection. タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy storage cycles equipped with a driving + saddle type all blade gravity solar thermal turbine. タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy conservation cycles equipped with a counter-rotating saddle-type all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy storage cycles equipped with a counter-rotating saddle type full-wing blade gravity solar turbine driven by driving and combustion gas heat and mass. タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbine in alternate rotation direction to drive mercury accelerated downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine driven by driving and combustion gas heat and mass. タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine driven by driving and combustion gas heat and mass. タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine driven by driving and combustion gas heat and mass. タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine driven by driving and combustion gas heat and mass. タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 17 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines in the rotational direction to accelerate the mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine driven by driving and combustion gas heat and mass. タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotating direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Various energy storage cycle coalescing engines equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat quantity and mass that can be selected to drive + liquid oxygen injection. タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive mercury accelerated downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Various energy storage cycle coalescing engines equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat quantity and mass that can be selected to drive + liquid oxygen injection. タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Various energy storage cycle coalescing engines equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat quantity and mass that can be selected to drive + liquid oxygen injection. タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Various energy storage cycle coalescing engines equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat quantity and mass that can be selected to drive + liquid oxygen injection. タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Various energy storage cycle coalescing engines equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat quantity and mass that can be selected to drive + liquid oxygen injection. タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotating direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy storage cycles equipped with a driving + saddle type all blade gravity solar thermal turbine. タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the direction of rotation to accelerate the mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy storage cycles equipped with a driving + saddle type all blade gravity solar thermal turbine. タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy storage cycles equipped with a driving + saddle type all blade gravity solar thermal turbine. タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) is doubled turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive mercury accelerated downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy storage cycles equipped with a driving + saddle type all blade gravity solar thermal turbine. タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) three times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy storage cycles equipped with a driving + saddle type all blade gravity solar thermal turbine. タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy conservation cycles equipped with a counter-rotating saddle-type all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 5 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy conservation cycles equipped with a counter-rotating saddle-type all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6x turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy conservation cycles equipped with a counter-rotating saddle-type all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive mercury downward acceleration + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy conservation cycles equipped with a counter-rotating saddle-type all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy conservation cycles equipped with a counter-rotating saddle-type all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy storage cycles equipped with a counter-rotating saddle type full-wing blade gravity solar turbine driven by driving and combustion gas heat and mass. タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy storage cycles equipped with a counter-rotating saddle type full-wing blade gravity solar turbine driven by driving and combustion gas heat and mass. タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy storage cycles equipped with a counter-rotating saddle type full-wing blade gravity solar turbine driven by driving and combustion gas heat and mass. タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy storage cycles equipped with a counter-rotating saddle type full-wing blade gravity solar turbine driven by driving and combustion gas heat and mass. タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbine in alternate rotation direction to drive mercury accelerated downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy storage cycles equipped with a counter-rotating saddle type full-wing blade gravity solar turbine driven by driving and combustion gas heat and mass. タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けたエンジン出力発生方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine of various energy conservation cycle of engine output generation method with driving + saddle type all blade gravity solar thermal turbine. タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けたエンジン出力発生方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine of various energy conservation cycle of engine output generation method with driving + saddle type all blade gravity solar thermal turbine. タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けたエンジン出力発生方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine of various energy conservation cycle of engine output generation method with driving + saddle type all blade gravity solar thermal turbine. タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けたエンジン出力発生方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 17 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines in the rotational direction to accelerate the mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine of various energy conservation cycle of engine output generation method with driving + saddle type all blade gravity solar thermal turbine. タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けたエンジン出力発生方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotating direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine of various energy conservation cycle of engine output generation method with driving + saddle type all blade gravity solar thermal turbine. タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19x turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to accelerate mercury downward + intake air flow path length lens Heating air (28a) aims at infinity with heat pump (1G) and air heat exchanger (2X) Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser (2F) as much as possible Ascend + Increase sphere ascending device (2F) to save and use liquid metal + Intake air flow path lens to heat and compress compressed heat recovery divided and save turbine gas by combustion gas calorie pressure and mass pressure + combustion Various energy conservation cycle coalescence engine equipped with a vertical all blade gravity solar turbine driven by gas heat and mass. タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) is a liquid metal gravity solar heat engine driven by three types of turbines with a 20x turbine + horizontal axis (1h) and a turbine with alternating rotation direction is provided to accelerate mercury downward + an intake air flow path length lens Heating air (28a) aims at infinity with heat pump (1G) and air heat exchanger (2X) Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser (2F) as much as possible Ascend + Increased sphere riser (2F) uses liquid metal to ascend and store + Inlet air flow path length lens heats compressed air to separate and store compressed heat Collects combustion gas calorie pressure and mass pressure to drive turbine + liquid Various energy conservation cycle coalescing engines equipped with a vertical all blade gravity solar turbine that is driven by all the heat and mass of combustion gas that can be selected for oxygen injection. タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) with 21x turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbine in alternate rotation direction to drive mercury downward acceleration + intake air flow path length lens Heating air (28a) aims at infinity with heat pump (1G) and air heat exchanger (2X) Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser (2F) as much as possible Ascend + Increase sphere riser (2F) to save and use liquid metal + Inlet air flow path length lens heats compressed air to separate and store compressed heat Collects combustion gas calorie pressure and mass pressure to drive turbine + 竪Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) is a 22x turbine three-type driven liquid metal gravity solar engine + horizontal axis (1h) with rotational turbines rotating alternately to accelerate mercury downward + intake air flow path length lens Heating air (28a) aims at infinity with heat pump (1G) and air heat exchanger (2X) Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser (2F) as much as possible Ascend + Increase sphere ascending device (2F) to save and use liquid metal + Intake air flow path lens to heat and compress compressed heat recovery divided and save turbine gas by combustion gas calorie pressure and mass pressure + combustion Various energy conservation cycle coalescing engines equipped with a counter-rotating saddle-type full rotor blade gravity solar turbine driven by gas heat and mass. タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) is a liquid metal gravity solar heat engine driven by three types of turbines with a 23x magnification + horizontal axis (1h) and a turbine rotating alternately in the rotational direction to drive mercury downward, and an intake air flow path length lens Heating air (28a) aims at infinity with heat pump (1G) and air heat exchanger (2X) Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser (2F) as much as possible Ascend + Increase sphere ascending device (2F) to save and use liquid metal + Intake air flow path lens to heat and compress compressed heat recovery divided and save turbine gas by combustion gas calorie pressure and mass pressure + combustion Various energy conservation cycle coalescing engines equipped with a counter rotating saddle-type full rotor blade gravity solar turbine driven by gas heat and mass. タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) is a 25x turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) is a double-type turbine driven by three types of liquid metal gravity solar thermal engine + horizontal axis (1h) is provided with turbines alternately rotating in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 4x turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times turbine driven 3 types of liquid metal gravity solar heat engine + Equipment method to make all the power generation turbine blades + Increased sphere rising device (2F) to save and use liquid metal + Intake air The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing the compressed air by the flow path length lens, and the vertical combustion blade gravity solar heat turbine driven by the combustion gas calorie and mass is provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6 times turbine 3 types of liquid metal gravity solar heat engine + Equipment method to make all the power generation turbine blades + Increased sphere lift device (2F) to save and use liquid metal + Intake air Turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by the flow path length lens, and the vertical movement is driven by all the combustion gas calorie and mass selectable for liquid oxygen injection Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that drives turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air with heat from a flow path lens. タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising sphere rising device (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure obtained by dividing the heat of compressed air by the flow path length lens and stored separately. Various energy storage cycle coalescing engine. タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed air by the flow path length lens, and the combustion gas calorie pressure and mass pressure are driven. Various energy storage cycle coalescing engine. タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) turbines with alternating rotation direction to drive specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times the turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) to provide rotational turbines alternately rotating the liquid metal to accelerate downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16-times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Various energy storage cycle coalescence engines equipped with vertical type moving blade gravity solar turbine driven by all of combustion gas calorie and mass that can be driven by each plus + liquid oxygen injection. タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical type moving blade gravity solar turbine that drives each turbine at タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravitational solar turbine that drives the turbine at + and all the combustion gas heat and mass. タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 19-times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with all-drive vertical rotor blade gravity solar turbines. タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driven by rotational force + increasing sphere rising The equipment (2F) is used to store and store liquid metal + The intake air flow path length lens can be used to drive the turbine with combustion gas calorie pressure and mass pressure obtained by separately storing compressed air with compressed heat recovery + Liquid oxygen injection can be selected Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that is driven by all the combustion gas heat and mass. タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The device (2F) uses liquid metal ascending and storing + Inlet air flow path length lens is used to heat the compressed air by dividing and storing the combustion gas, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with solar heat turbine. タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times the turbine 3 types of liquid metal gravity solar engine + power increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating saddle-type all-blade gravity solar turbine that is driven entirely. タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravity acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating vertical all blade gravity solar thermal turbine driven in all. タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する++増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate the liquid lead alloy downward ++ increasing sphere raising device ( 2F) Use liquid metal ascending and storage + Inlet air flow path length lens to heat the compressed air by dividing and storing the combustion gas, and driving the turbine with combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass in total Combined engine with various energy conservation cycles equipped with a driven vertical all blade gravity solar turbine. タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する++増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) is a liquid metal gravity solar engine driven by three types of turbines with double turbines + horizontal axis (1h), and a turbine with alternating rotation directions is provided to accelerate and drive the liquid lead alloy downward ++ Incrementing ball lift device ( 2F) Uses liquid metal ascending and storage + Inlet air flow path length lens heats compressed air to separate and store compressed heat Drives turbine with combustion gas calorie pressure and mass pressure + Combustion with selectable liquid oxygen injection Various energy conservation cycle coalescing engines equipped with a vertical all blade gravity solar turbine driven by gas heat and mass. タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する++増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times turbine 3 type liquid metal gravity solar thermal engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid lead alloy downward ++ increasing sphere raising device ( 2F) Use liquid metal ascending and storage + Inlet air flow length lens to heat the compressed air to separate and store the compressed air, and drive the turbine with combustion gas calorific pressure and mass pressure, respectively + vertical type rotor blade gravity solar turbine Various energy storage cycle coalescing engine. タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する++増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) quadruple turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid lead alloy downward ++ increasing sphere raising device ( 2F) Use liquid metal ascending and storage + Inlet air flow path length lens to heat the compressed air by dividing and storing the combustion gas, and driving the turbine with combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass in total Combined engine with various energy conservation cycles equipped with a driven counter rotating saddle type all blade gravity solar thermal turbine. タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する++増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid lead alloy downward ++ increasing sphere raising device ( 2F) Use liquid metal ascending and storage + Inlet air flow path length lens to heat the compressed air by dividing and storing the combustion gas, and driving the turbine with combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass in total Combined engine with various energy conservation cycles equipped with a driven counter-rotating vertical all blade gravity solar turbine. タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6 times turbine 3 types of liquid metal gravity solar heat engine + Equipment method to make all the power generation turbine blades + Increased sphere lift device (2F) to save and use liquid metal + Intake air The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing the compressed air by the flow path length lens, and the vertical combustion blade gravity solar heat turbine driven by the combustion gas calorie and mass is provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by the flow path length lens, and the vertical movement is driven by all the combustion gas calorie and mass selectable for liquid oxygen injection Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising sphere rising device (2F) to use and store liquid metal + intake air Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that drives turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air with heat from a flow path lens. タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure obtained by dividing the heat of compressed air by the flow path length lens and stored separately. Various energy storage cycle coalescing engine. タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed air by the flow path length lens, and the combustion gas calorie pressure and mass pressure are driven. Various energy storage cycle coalescing engine. タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) turbines with alternating rotation direction to drive specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16-times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase ball liquid storage device (2F) to save and use liquid metal + Inlet air flow length lens for heating air compressed heat recovery divided and stored combustion calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a vertical all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Various energy storage cycle coalescence engines equipped with vertical type moving blade gravity solar turbine driven by all of combustion gas calorie and mass that can be driven by each plus + liquid oxygen injection. タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18-fold turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical type moving blade gravity solar turbine that drives each turbine at タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 19-times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravitational solar turbine that drives the turbine at + and all the combustion gas heat and mass. タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driven by rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with all-drive vertical rotor blade gravity solar turbines. タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The equipment (2F) is used to store and store liquid metal + The intake air flow path length lens can be used to drive the turbine with combustion gas calorie pressure and mass pressure obtained by separately storing compressed air with compressed heat recovery + Liquid oxygen injection can be selected Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that is driven by all the combustion gas heat and mass. タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times the turbine 3 types of liquid metal gravity solar engine + power increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The device (2F) uses liquid metal ascending and storing + Inlet air flow path length lens is used to heat the compressed air by dividing and storing the combustion gas, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with solar heat turbine. タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravity acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating saddle-type all-blade gravity solar turbine that is driven entirely. タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times the turbine 3 types of liquid metal gravity solar engine + power increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating vertical all blade gravity solar thermal turbine driven in all. タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) is a double-type turbine driven by three types of liquid metal gravity solar thermal engine + horizontal axis (1h) is provided with turbines alternately rotating in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 4x turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing the compressed air by the flow path length lens, and the vertical combustion blade gravity solar heat turbine driven by the combustion gas calorie and mass is provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising sphere rising device (2F) to use and store liquid metal + intake air Turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by the flow path length lens, and the vertical movement is driven by all the combustion gas calorie and mass selectable for liquid oxygen injection Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that drives turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air with heat from a flow path lens. タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure obtained by dividing the heat of compressed air by the flow path length lens and stored separately. Various energy storage cycle coalescing engine. タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times larger turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + increase ball lift device (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed air by the flow path length lens, and the combustion gas calorie pressure and mass pressure are driven. Various energy storage cycle coalescing engine. タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) turbines with alternating rotation direction to drive specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16x turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Various energy storage cycle coalescence engines equipped with vertical type moving blade gravity solar turbine driven by all of combustion gas calorie and mass that can be driven by each plus + liquid oxygen injection. タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 19-times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase ball liquid storage device (2F) to save and use liquid metal + Inlet air flow length lens for heating air compressed heat recovery divided and stored combustion calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical type moving blade gravity solar turbine that drives each turbine at タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravitational solar turbine that drives the turbine at + and all the combustion gas heat and mass. タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with all-drive vertical rotor blade gravity solar turbines. タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times the turbine 3 types of liquid metal gravity solar engine + power increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The equipment (2F) is used to store and store liquid metal + The intake air flow path length lens can be used to drive the turbine with combustion gas calorie pressure and mass pressure obtained by separately storing compressed air with compressed heat recovery + Liquid oxygen injection can be selected Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that is driven by all the combustion gas heat and mass. タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravity acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The device (2F) uses liquid metal ascending and storing + Inlet air flow path length lens is used to heat the compressed air by dividing and storing the combustion gas, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with solar heat turbine. タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times the turbine 3 types of liquid metal gravity solar engine + power increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating saddle-type all-blade gravity solar turbine that is driven entirely. タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) doubles turbine 3 types of liquid metal gravity solar engine + power increasing sphere (2E) accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating vertical all blade gravity solar thermal turbine driven in all. タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 4x turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotation direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising sphere rising device (2F) to use and store liquid metal + intake air The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing the compressed air by the flow path length lens, and the vertical combustion blade gravity solar heat turbine driven by the combustion gas calorie and mass is provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by the flow path length lens, and the vertical movement is driven by all the combustion gas calorie and mass selectable for liquid oxygen injection Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that drives turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air with heat from a flow path lens. タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times larger turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + increase ball lift device (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure obtained by dividing the heat of compressed air by the flow path length lens and stored separately. Various energy storage cycle coalescing engine. タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + increase ball lift device (2F) to save and use liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed air by the flow path length lens, and the combustion gas calorie pressure and mass pressure are driven. Various energy storage cycle coalescing engine. タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) turbines with alternating rotation direction to drive specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16x turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-times turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Various energy storage cycle coalescence engines equipped with vertical type moving blade gravity solar turbine driven by all of combustion gas calorie and mass that can be driven by each plus + liquid oxygen injection. タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical type moving blade gravity solar turbine that drives each turbine at タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times the turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravitational solar turbine that drives the turbine at + and all the combustion gas heat and mass. タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the turbine three types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times the turbine 3 types of liquid metal gravity solar engine + power increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with all-drive vertical rotor blade gravity solar turbines. タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravity acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The equipment (2F) is used to store and store liquid metal + The intake air flow path length lens can be used to drive the turbine with combustion gas calorie pressure and mass pressure obtained by separately storing compressed air with compressed heat recovery + Liquid oxygen injection can be selected Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that is driven by all the combustion gas heat and mass. タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times the turbine 3 types of liquid metal gravity solar engine + power increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The device (2F) uses liquid metal ascending and storing + Inlet air flow path length lens is used to heat the compressed air by dividing and storing the combustion gas, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with solar heat turbine. タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) doubles turbine 3 types of liquid metal gravity solar engine + power increasing sphere (2E) accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating saddle-type all-blade gravity solar turbine that is driven entirely. タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating vertical all blade gravity solar thermal turbine driven in all. タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 4x turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotation direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing the compressed air by the flow path length lens, and the vertical combustion blade gravity solar heat turbine driven by the combustion gas calorie and mass is provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by the flow path length lens, and the vertical movement is driven by all the combustion gas calorie and mass selectable for liquid oxygen injection Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times larger turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + increase ball lift device (2F) to use and store liquid metal + intake air Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that drives turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air with heat from a flow path lens. タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + increase ball lift device (2F) to save and use liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure obtained by dividing the heat of compressed air by the flow path length lens and stored separately. Various energy storage cycle coalescing engine. タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 13 times turbine 3 type liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising sphere climbing device (2F) ascending and storing liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed air by the flow path length lens, and the combustion gas calorie pressure and mass pressure are driven. Various energy storage cycle coalescing engine. タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16x turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternating in rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 19-times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Various energy storage cycle coalescence engines equipped with vertical type moving blade gravity solar turbine driven by all of combustion gas calorie and mass that can be driven by each plus + liquid oxygen injection. タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times the turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical type moving blade gravity solar turbine that drives each turbine at タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the turbine three types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravitational solar turbine that drives the turbine at + and all the combustion gas heat and mass. タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times larger turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive the liquid metal downward + various aircraft such as space shuttle Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravity acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with all-drive vertical rotor blade gravity solar turbines. タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times the turbine 3 types of liquid metal gravity solar engine + power increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The equipment (2F) is used to store and store liquid metal + The intake air flow path length lens can be used to drive the turbine with combustion gas calorie pressure and mass pressure obtained by separately storing compressed air with compressed heat recovery + Liquid oxygen injection can be selected Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that is driven by all the combustion gas heat and mass. タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) doubles turbine 3 types of liquid metal gravity solar engine + power increasing sphere (2E) accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising The device (2F) uses liquid metal ascending and storing + Inlet air flow path length lens is used to heat the compressed air by dividing and storing the combustion gas, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with solar heat turbine. タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating saddle-type all-blade gravity solar turbine that is driven entirely. タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) quadruple turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating vertical all blade gravity solar thermal turbine driven in all. タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotation direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing the compressed air by the flow path length lens, and the vertical combustion blade gravity solar heat turbine driven by the combustion gas calorie and mass is provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times larger turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + increase ball lift device (2F) to use and store liquid metal + intake air Turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by the flow path length lens, and the vertical movement is driven by all the combustion gas calorie and mass selectable for liquid oxygen injection Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + increase ball lift device (2F) to save and use liquid metal + intake air Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that drives turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air with heat from a flow path lens. タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 13 times turbine 3 type liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising sphere climbing device (2F) ascending and storing liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure obtained by dividing the heat of compressed air by the flow path length lens and stored separately. Various energy storage cycle coalescing engine. タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine three types of liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball lift device (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed air by the flow path length lens, and the combustion gas calorie pressure and mass pressure are driven. Various energy storage cycle coalescing engine. タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16x turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternating in rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times the turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Various energy storage cycle coalescence engines equipped with vertical type moving blade gravity solar turbine driven by all of combustion gas calorie and mass that can be driven by each plus + liquid oxygen injection. タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the turbine three types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical type moving blade gravity solar turbine that drives each turbine at タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) with 23 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravitational solar turbine that drives the turbine at + and all the combustion gas heat and mass. タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times the turbine 3 types of liquid metal gravity solar engine + power increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with all-drive vertical rotor blade gravity solar turbines. タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) doubles turbine 3 types of liquid metal gravity solar engine + power increasing sphere (2E) accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising The equipment (2F) is used to store and store liquid metal + The intake air flow path length lens can be used to drive the turbine with combustion gas calorie pressure and mass pressure obtained by separately storing compressed air with compressed heat recovery + Liquid oxygen injection can be selected Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that is driven by all the combustion gas heat and mass. タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising The device (2F) uses liquid metal ascending and storing + Inlet air flow path length lens is used to heat the compressed air by dividing and storing the combustion gas, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with solar heat turbine. タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) quadruple turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating saddle-type all-blade gravity solar turbine that is driven entirely. タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5x turbine 3 types of liquid metal gravity solar engine + output increasing sphere (2E) accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating vertical all blade gravity solar thermal turbine driven in all. タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotation direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10x turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbine in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times larger turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + increase ball lift device (2F) to use and store liquid metal + intake air The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing the compressed air by the flow path length lens, and the vertical combustion blade gravity solar heat turbine driven by the combustion gas calorie and mass is provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + increase ball lift device (2F) to save and use liquid metal + intake air Turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by the flow path length lens, and the vertical movement is driven by all the combustion gas calorie and mass selectable for liquid oxygen injection Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 13 times turbine 3 type liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising sphere climbing device (2F) ascending and storing liquid metal + intake air Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that drives turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air with heat from a flow path lens. タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine three types of liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball lift device (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure obtained by dividing the heat of compressed air by the flow path length lens and stored separately. Various energy storage cycle coalescing engine. タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising sphere riser (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed air by the flow path length lens, and the combustion gas calorie pressure and mass pressure are driven. Various energy storage cycle coalescing engine. タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16x turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternating in rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 20-fold turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternate rotational directions to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times the turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the turbine three types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Various energy storage cycle coalescence engines equipped with vertical type moving blade gravity solar turbine driven by all of combustion gas calorie and mass that can be driven by each plus + liquid oxygen injection. タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) with 23 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical type moving blade gravity solar turbine that drives each turbine at タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravitational solar turbine that drives the turbine at + and all the combustion gas heat and mass. タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + various aircraft such as space shuttle Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) doubles turbine 3 types of liquid metal gravity solar engine + power increasing sphere (2E) accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with all-drive vertical rotor blade gravity solar turbines. タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising The equipment (2F) is used to store and store liquid metal + The intake air flow path length lens can be used to drive the turbine with combustion gas calorie pressure and mass pressure obtained by separately storing compressed air with compressed heat recovery + Liquid oxygen injection can be selected Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that is driven by all the combustion gas heat and mass. タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) quadruple turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising The device (2F) uses liquid metal ascending and storing + Inlet air flow path length lens is used to heat the compressed air by dividing and storing the combustion gas, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with solar heat turbine. タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5x turbine 3 types of liquid metal gravity solar engine + output increasing sphere (2E) accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating saddle-type all-blade gravity solar turbine that is driven entirely. タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6 times turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating vertical all blade gravity solar thermal turbine driven in all. タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotation direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10x turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbine in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 11 times turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + increase ball lift device (2F) to save and use liquid metal + intake air The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing the compressed air by the flow path length lens, and the vertical combustion blade gravity solar heat turbine driven by the combustion gas calorie and mass is provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 13 times turbine 3 type liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising sphere climbing device (2F) ascending and storing liquid metal + intake air Turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by the flow path length lens, and the vertical movement is driven by all the combustion gas calorie and mass selectable for liquid oxygen injection Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine three types of liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball lift device (2F) to use and store liquid metal + intake air Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that drives turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air with heat from a flow path lens. タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising sphere riser (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure obtained by dividing the heat of compressed air by the flow path length lens and stored separately. Various energy storage cycle coalescing engine. タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times the turbine 3 types of liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed air by the flow path length lens, and the combustion gas calorie pressure and mass pressure are driven. Various energy storage cycle coalescing engine. タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternating in rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 20-fold turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternate rotational directions to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times the turbine 3 types of driving liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the turbine three types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) with 23 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Various energy storage cycle coalescence engines equipped with vertical type moving blade gravity solar turbine driven by all of combustion gas calorie and mass that can be driven by each plus + liquid oxygen injection. タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical type moving blade gravity solar turbine that drives each turbine at タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + various aircraft such as space shuttle Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravitational solar turbine that drives the turbine at + and all the combustion gas heat and mass. タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) double-type turbine driven by three types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotational directions + liquid metal to accelerate downward + various aircraft such as space shuttle Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with all-drive vertical rotor blade gravity solar turbines. タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) quadruple turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising The equipment (2F) is used to store and store liquid metal + The intake air flow path length lens can be used to drive the turbine with combustion gas calorie pressure and mass pressure obtained by separately storing compressed air with compressed heat recovery + Liquid oxygen injection can be selected Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that is driven by all the combustion gas heat and mass. タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5x turbine 3 types of liquid metal gravity solar engine + output increasing sphere (2E) accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising The device (2F) uses liquid metal ascending and storing + Inlet air flow path length lens is used to heat the compressed air by dividing and storing the combustion gas, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with solar heat turbine. タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6 times turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating saddle-type all-blade gravity solar turbine that is driven entirely. タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times turbine 3 type liquid metal gravity solar heat engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating vertical all blade gravity solar thermal turbine driven in all. タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times the turbine 3 types of driving liquid metal gravity solar heat engine + configuration and method of accelerating the power increase sphere (2E) + intake air passage length lens heating air compressed heat recovery fuel injection Recovers combustion heat and uses divided storage + Increases and stores liquid metal in the rising ball lift device (2F) + Combustion gas calorie pressure and mass pressure that separates and stores the heated air with the intake air passage length lens Each energy storage cycle coalescence engine equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times turbine 3 types driven liquid metal gravity solar heat engine + configuration and method of accelerating output sphere (2E) + intake air flow path length lens heating air compressed heat recovery fuel injection Recovers combustion heat and uses divided storage + Increases and stores liquid metal in the rising ball lift device (2F) + Combustion gas calorie pressure and mass pressure that separates and stores the heated air with the intake air passage length lens Various energy storage cycle coalescence engines equipped with vertical type moving blade gravity solar turbine driven by all of combustion gas calorie and mass that can be driven by each plus + liquid oxygen injection. タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times the turbine 3 types of liquid metal gravity solar heat engine + configuration and method of accelerating the power increase sphere (2E) + intake air flow path length lens heating air compression compressed heat recovery fuel injection Recovers combustion heat and uses divided storage + Increases and stores liquid metal in the rising ball lift device (2F) + Combustion gas calorie pressure and mass pressure that separates and stores the heated air with the intake air passage length lens Each energy storage cycle coalescence engine equipped with a vertical type moving blade gravity solar turbine that drives each turbine at タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times the turbine 3 types of driving liquid metal gravity solar heat engine + configuration and method of accelerating the power increase sphere (2E) + intake air passage length lens heating air compressed heat recovery fuel injection Recovers combustion heat and uses divided storage + Increases and stores liquid metal in the rising ball lift device (2F) + Combustion gas calorie pressure and mass pressure that separates and stores the heated air with the intake air passage length lens Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravitational solar turbine that drives the turbine at + and all the combustion gas heat and mass. タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 12 times turbine 3 types of liquid metal gravity solar heat engine + configuration and method of accelerating output sphere (2E) + intake air flow path length lens heating air compressed heat recovery fuel injection Recovers combustion heat and uses divided storage + Increases and stores liquid metal in the rising ball lift device (2F) + Combustion gas calorie pressure and mass pressure that separates and stores the heated air with the intake air passage length lens Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times turbine 3 types driven liquid metal gravity solar heat engine + configuration and method of accelerating output sphere (2E) + intake air flow path length lens heating air compressed heat recovery fuel injection Recovers combustion heat and uses divided storage + Increases and stores liquid metal in the rising ball lift device (2F) + Combustion gas calorie pressure and mass pressure that separates and stores the heated air with the intake air passage length lens Each energy storage cycle coalescence engine equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine 3 types of driving liquid metal gravity solar engine + configuration and method of accelerating the power increase sphere (2E) + intake air passage length lens heating air compressed heat recovery fuel injection Recovers combustion heat and uses divided storage + Increases and stores liquid metal in the rising ball lift device (2F) + Combustion gas calorie pressure and mass pressure that separates and stores the heated air with the intake air passage length lens Various energy storage cycle coalescence engines equipped with vertical type moving blade gravity solar turbine driven by all of combustion gas calorie and mass that can be driven by each plus + liquid oxygen injection. タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times the turbine 3 types of liquid metal gravity solar heat engine + configuration and method of accelerating the power increase sphere (2E) + intake air passage length lens heating air compressed heat recovery fuel injection Recovers combustion heat and uses divided storage + Increases and stores liquid metal in the rising ball lift device (2F) + Combustion gas calorie pressure and mass pressure that separates and stores the heated air with the intake air passage length lens Each energy storage cycle coalescence engine equipped with a vertical type moving blade gravity solar turbine that drives each turbine at タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16x turbine 3 types driven liquid metal gravity solar engine + configuration and method of accelerating output sphere (2E) + intake air flow path length lens heating air compressed heat recovery fuel injection Recovers combustion heat and uses divided storage + Increases and stores liquid metal in the rising ball lift device (2F) + Combustion gas calorie pressure and mass pressure that separates and stores the heated air with the intake air passage length lens Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravitational solar turbine that drives the turbine at + and all the combustion gas heat and mass. タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times the turbine 3 types of driving liquid metal gravity solar heat engine + configuration and method of accelerating the power increase sphere (2E) + intake air flow path length lens heating air compression compressed fuel recovery fuel injection Recovers combustion heat and uses divided storage + Increases and stores liquid metal in the rising ball lift device (2F) + Combustion gas calorie pressure and mass pressure that separates and stores the heated air with the intake air passage length lens Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotating direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine driven by driving and combustion gas heat and mass. タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive mercury accelerated downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Various energy storage cycle coalescing engines equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat quantity and mass that can be selected to drive + liquid oxygen injection. タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy storage cycles equipped with a driving + saddle type all blade gravity solar thermal turbine. タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy conservation cycles equipped with a counter-rotating saddle-type all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy storage cycles equipped with a counter-rotating saddle type full-wing blade gravity solar turbine driven by driving and combustion gas heat and mass. タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotating direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine driven by driving and combustion gas heat and mass. タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the direction of rotation to accelerate the mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine driven by driving and combustion gas heat and mass. タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine driven by driving and combustion gas heat and mass. タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) is doubled turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive mercury accelerated downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine driven by driving and combustion gas heat and mass. タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) three times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine driven by driving and combustion gas heat and mass. タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Various energy storage cycle coalescing engines equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat quantity and mass that can be selected to drive + liquid oxygen injection. タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 5 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Various energy storage cycle coalescing engines equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat quantity and mass that can be selected to drive + liquid oxygen injection. タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6x turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Various energy storage cycle coalescing engines equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat quantity and mass that can be selected to drive + liquid oxygen injection. タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive mercury downward acceleration + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Various energy storage cycle coalescing engines equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat quantity and mass that can be selected to drive + liquid oxygen injection. タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Various energy storage cycle coalescing engines equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat quantity and mass that can be selected to drive + liquid oxygen injection. タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy storage cycles equipped with a driving + saddle type all blade gravity solar thermal turbine. タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy storage cycles equipped with a driving + saddle type all blade gravity solar thermal turbine. タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy storage cycles equipped with a driving + saddle type all blade gravity solar thermal turbine. タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy storage cycles equipped with a driving + saddle type all blade gravity solar thermal turbine. タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbine in alternate rotation direction to drive mercury accelerated downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy storage cycles equipped with a driving + saddle type all blade gravity solar thermal turbine. タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy conservation cycles equipped with a counter-rotating saddle-type all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy conservation cycles equipped with a counter-rotating saddle-type all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy conservation cycles equipped with a counter-rotating saddle-type all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 17 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines in the rotational direction to accelerate the mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy conservation cycles equipped with a counter-rotating saddle-type all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotating direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy conservation cycles equipped with a counter-rotating saddle-type all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive mercury accelerated downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy storage cycles equipped with a counter-rotating saddle type full-wing blade gravity solar turbine driven by driving and combustion gas heat and mass. タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive mercury accelerated downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy storage cycles equipped with a counter-rotating saddle type full-wing blade gravity solar turbine driven by driving and combustion gas heat and mass. タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy storage cycles equipped with a counter-rotating saddle type full-wing blade gravity solar turbine driven by driving and combustion gas heat and mass. タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy storage cycles equipped with a counter-rotating saddle type full-wing blade gravity solar turbine driven by driving and combustion gas heat and mass. タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotating direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine with various energy storage cycles equipped with a counter-rotating saddle type full-wing blade gravity solar turbine driven by driving and combustion gas heat and mass. タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けたエンジン出力発生方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the direction of rotation to accelerate the mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine of various energy conservation cycle of engine output generation method with driving + saddle type all blade gravity solar thermal turbine. タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けたエンジン出力発生方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine of various energy conservation cycle of engine output generation method with driving + saddle type all blade gravity solar thermal turbine. タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けたエンジン出力発生方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) is doubled turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive mercury accelerated downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine of various energy conservation cycle of engine output generation method with driving + saddle type all blade gravity solar thermal turbine. タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けたエンジン出力発生方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) three times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine of various energy conservation cycle of engine output generation method with driving + saddle type all blade gravity solar thermal turbine. タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けたエンジン出力発生方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + various ships as rotational force Drives the jet propulsion force + Increases and stores the liquid metal by the increasing ball lift device (2F) + Uses the intake air passage length lens to compress and collect the heat of the compressed air, and stores the turbine at the combustion gas calorific pressure and mass pressure, respectively Combined engine of various energy conservation cycle of engine output generation method with driving + saddle type all blade gravity solar thermal turbine. タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5x turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbine in alternate rotation direction to accelerate mercury downward + intake air flow path length lens Heating air (28a) with heat pump (1G) and air heat exchanger (2X) aiming for infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase ball increase device with increase ball lift device (2F) + Increase ball Liquid metal is lifted and stored in the ascending device (2F) + Heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorie pressure and mass pressure, respectively + combustion gas calorie and mass All energy storage cycle coalescing engine equipped with a vertical all blade gravity solar turbine driven by タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + intake air flow path length lens Heating air (28a) with heat pump (1G) and air heat exchanger (2X) aiming for infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase ball increase device with increase ball lift device (2F) + Increase ball Use ascending device (2F) to save and store liquid metal + Intake air flow path length lens to heat and compress compressed heat recovery Separated and stored combustion gas calorie pressure and mass pressure to drive turbine + Liquid oxygen injection Various energy conservation cycle coalescing engines equipped with a vertical all blade gravity solar turbine driven by all possible combustion gas heat and mass. タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + intake air flow path length lens Heating air (28a) with heat pump (1G) and air heat exchanger (2X) aiming for infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase ball increase device with increase ball lift device (2F) + Increase ball Liquid metal is lifted and stored in the ascending device (2F) + Heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with gravity solar thermal turbine. タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8x turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate mercury downward + intake air flow path length lens Heating air (28a) with heat pump (1G) and air heat exchanger (2X) aiming for infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase ball increase device with increase ball lift device (2F) + Increase ball Liquid metal is lifted and stored in the ascending device (2F) + Heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorie pressure and mass pressure, respectively + combustion gas calorie and mass All energy storage cycle coalescing engine equipped with a counter rotating saddle type full rotor blade gravity solar turbine driven by タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate mercury downward + intake air flow path length lens Heating air (28a) with heat pump (1G) and air heat exchanger (2X) aiming for infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase ball increase device with increase ball lift device (2F) + Increase ball Liquid metal is lifted and stored in the ascending device (2F) + Heated air is compressed and recovered by the intake air flow path length lens, and the turbine is driven by the combustion gas calorie pressure and mass pressure, respectively + combustion gas calorie and mass All energy conservation cycle coalescence engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all. タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10x turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbine in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 11 times turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12x turbine 3 types driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction, liquid lead alloy is accelerated downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising sphere riser (2F) to use and store liquid metal + intake air The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing the compressed air by the flow path length lens, and the vertical combustion blade gravity solar heat turbine driven by the combustion gas calorie and mass is provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times the turbine 3 types of liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by the flow path length lens, and the vertical movement is driven by all the combustion gas calorie and mass selectable for liquid oxygen injection Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold turbine driven 3 types of liquid metal gravity solar engine + equipment method to make all the power generation turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that drives turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air with heat from a flow path lens. タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising sphere climbing device (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure obtained by dividing the heat of compressed air by the flow path length lens and stored separately. Various energy storage cycle coalescing engine. タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-fold turbine driven 3 types of liquid metal gravity solar engine + equipment method to make all output generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed air by the flow path length lens, and the combustion gas calorie pressure and mass pressure are driven. Various energy storage cycle coalescing engine. タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 20-fold turbine three-type liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternate rotational directions to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times the turbine 3 types of driving liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the direction of rotation to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) is a liquid metal gravity solar heat engine driven by three types of turbines with a 23 times magnification + horizontal axis (1h), and turbines with alternate rotation directions are provided to accelerate specific critical materials downwards + intake air passage length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the direction of rotation to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + various aircraft such as space shuttle Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) double-type turbine driven by three types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotational directions + liquid metal to accelerate downward + various aircraft such as space shuttle Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Various energy storage cycle coalescence engines equipped with vertical type moving blade gravity solar turbine driven by all of combustion gas calorie and mass that can be driven by each plus + liquid oxygen injection. タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as space shuttle Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical type moving blade gravity solar turbine that drives each turbine at タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravitational solar turbine that drives the turbine at + and all the combustion gas heat and mass. タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times turbine 3 types of liquid metal gravity solar thermal engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid metal downwards + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6 times turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with all-drive vertical rotor blade gravity solar turbines. タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times turbine 3 type liquid metal gravity solar heat engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The equipment (2F) is used to store and store liquid metal + The intake air flow path length lens can be used to drive the turbine with combustion gas calorie pressure and mass pressure obtained by separately storing compressed air with compressed heat recovery + Liquid oxygen injection can be selected Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that is driven by all the combustion gas heat and mass. タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses liquid metal ascending and storing + Inlet air flow path length lens is used to heat the compressed air by dividing and storing the combustion gas, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with solar heat turbine. タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 9x turbine 3 types of liquid metal gravity solar engine + power increasing sphere (2E) accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating saddle type all-blade gravity solar turbine that is driven in all タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating vertical all blade gravity solar thermal turbine driven in all. タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 11 times turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12x turbine 3 types driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction, liquid lead alloy is accelerated downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times turbine 3 types driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbine in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times the turbine 3 types of liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing the compressed air by the flow path length lens, and the vertical combustion blade gravity solar heat turbine driven by the combustion gas calorie and mass is provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold turbine driven 3 types of liquid metal gravity solar engine + equipment method to make all the power generation turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by the flow path length lens, and the vertical movement is driven by all the combustion gas calorie and mass selectable for liquid oxygen injection Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising sphere climbing device (2F) to use and store liquid metal + intake air Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that drives turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air with heat from a flow path lens. タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-fold turbine driven 3 types of liquid metal gravity solar engine + equipment method to make all output generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure obtained by dividing the heat of compressed air by the flow path length lens and stored separately. Various energy storage cycle coalescing engine. タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed air by the flow path length lens, and the combustion gas calorie pressure and mass pressure are driven. Various energy storage cycle coalescing engine. タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times the turbine 3 types of driving liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the direction of rotation to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) is a liquid metal gravity solar heat engine driven by three types of turbines with a 23 times magnification + horizontal axis (1h), and turbines with alternate rotation directions are provided to accelerate specific critical materials downwards + intake air passage length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the direction of rotation to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) double-type turbine driven by three types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotational directions + liquid metal to accelerate downward + various aircraft such as space shuttle Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as space shuttle Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Various energy storage cycle coalescence engines equipped with vertical type moving blade gravity solar turbine driven by all of combustion gas calorie and mass that can be driven by each plus + liquid oxygen injection. タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical type moving blade gravity solar turbine that drives each turbine at タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times turbine 3 types of liquid metal gravity solar thermal engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid metal downwards + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravitational solar turbine that drives the turbine at + and all the combustion gas heat and mass. タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6 times turbine driven 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times turbine 3 type liquid metal gravity solar heat engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with all-drive vertical rotor blade gravity solar turbines. タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The equipment (2F) is used to store and store liquid metal + The intake air flow path length lens can be used to drive the turbine with combustion gas calorie pressure and mass pressure obtained by separately storing compressed air with compressed heat recovery + Liquid oxygen injection can be selected Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that is driven by all the combustion gas heat and mass. タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 9x turbine 3 types of liquid metal gravity solar engine + power increasing sphere (2E) accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising The device (2F) uses liquid metal ascending and storing + Inlet air flow path length lens is used to heat the compressed air by dividing and storing the combustion gas, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with solar heat turbine. タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating saddle-type all-blade gravity solar turbine that is driven entirely. タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated by gravity acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating vertical all blade gravity solar thermal turbine driven in all. タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12x turbine 3 types driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction, liquid lead alloy is accelerated downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times turbine 3 types driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbine in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16x turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbine in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold turbine driven 3 types of liquid metal gravity solar engine + equipment method to make all the power generation turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing the compressed air by the flow path length lens, and the vertical combustion blade gravity solar heat turbine driven by the combustion gas calorie and mass is provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising sphere climbing device (2F) to use and store liquid metal + intake air Turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by the flow path length lens, and the vertical movement is driven by all the combustion gas calorie and mass selectable for liquid oxygen injection Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-fold turbine driven 3 types of liquid metal gravity solar engine + equipment method to make all output generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that drives turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air with heat from a flow path lens. タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure obtained by dividing the heat of compressed air by the flow path length lens and stored separately. Various energy storage cycle coalescing engine. タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times larger turbine driven 3 types of liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed air by the flow path length lens, and the combustion gas calorie pressure and mass pressure are driven. Various energy storage cycle coalescing engine. タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the direction of rotation to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) is a liquid metal gravity solar heat engine driven by three types of turbines with a 23 times magnification + horizontal axis (1h), and turbines with alternate rotation directions are provided to accelerate specific critical materials downwards + intake air passage length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the direction of rotation to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) is doubled turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) is provided with turbines alternately rotating in the rotational direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as space shuttle Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Various energy storage cycle coalescence engines equipped with vertical type moving blade gravity solar turbine driven by all of combustion gas calorie and mass that can be driven by each plus + liquid oxygen injection. タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times turbine 3 types of liquid metal gravity solar thermal engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid metal downwards + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical type moving blade gravity solar turbine that drives each turbine at タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6 times turbine driven 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravitational solar turbine that drives the turbine at + and all the combustion gas heat and mass. タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to accelerate the liquid metal down + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with all-drive vertical rotor blade gravity solar turbines. タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 9x turbine 3 types of liquid metal gravity solar engine + power increasing sphere (2E) accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising The equipment (2F) is used to store and store liquid metal + The intake air flow path length lens can be used to drive the turbine with combustion gas calorie pressure and mass pressure obtained by separately storing compressed air with compressed heat recovery + Liquid oxygen injection can be selected Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that is driven by all the combustion gas heat and mass. タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses liquid metal ascending and storing + Inlet air flow path length lens is used to heat the compressed air by dividing and storing the combustion gas, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with solar heat turbine. タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated by gravity acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating saddle type all-blade gravity solar turbine that is driven in all タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driven by rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating vertical all blade gravity solar thermal turbine driven in all. タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction, liquid lead alloy is accelerated downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times turbine 3 types driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbine in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16x turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbine in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternate rotation direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising sphere climbing device (2F) to use and store liquid metal + intake air The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing the compressed air by the flow path length lens, and the vertical combustion blade gravity solar heat turbine driven by the combustion gas calorie and mass is provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-fold turbine driven 3 types of liquid metal gravity solar engine + equipment method to make all output generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by the flow path length lens, and the vertical movement is driven by all the combustion gas calorie and mass selectable for liquid oxygen injection Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that drives turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air with heat from a flow path lens. タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times larger turbine driven 3 types of liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure obtained by dividing the heat of compressed air by the flow path length lens and stored separately. Various energy storage cycle coalescing engine. タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + increase ball lift device (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed air by the flow path length lens, and the combustion gas calorie pressure and mass pressure are driven. Various energy storage cycle coalescing engine. タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) is a liquid metal gravity solar heat engine driven by three types of turbines with a 23 times magnification + horizontal axis (1h), and turbines with alternate rotation directions are provided to accelerate specific critical materials downwards + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the direction of rotation to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) is doubled turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) is provided with turbines alternately rotating in the rotational direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times turbine 3 types of liquid metal gravity solar thermal engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid metal downwards + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Various energy storage cycle coalescence engines equipped with vertical type moving blade gravity solar turbine driven by all of combustion gas calorie and mass that can be driven by each plus + liquid oxygen injection. タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6 times turbine driven 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical type moving blade gravity solar turbine that drives each turbine at タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to accelerate the liquid metal down + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravitational solar turbine that drives the turbine at + and all the combustion gas heat and mass. タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid metal downward + various aircraft such as space shuttle Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 9x turbine 3 types of liquid metal gravity solar engine + power increasing sphere (2E) accelerated downward by gravitational acceleration turbine driving + various vehicles driving rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with all-drive vertical rotor blade gravity solar turbines. タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The equipment (2F) is used to store and store liquid metal + The intake air flow path length lens can be used to drive the turbine with combustion gas calorie pressure and mass pressure obtained by separately storing compressed air with compressed heat recovery + Liquid oxygen injection can be selected Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that is driven by all the combustion gas heat and mass. タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated by gravity acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The device (2F) uses liquid metal ascending and storing + Inlet air flow path length lens is used to heat the compressed air by dividing and storing the combustion gas, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with solar heat turbine. タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driven by rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating saddle-type all-blade gravity solar turbine that is driven entirely. タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times turbine 3 types of liquid metal gravity solar engine + power increasing sphere (2E) accelerated downward by gravitational acceleration Turbine driving + various vehicles driving rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating vertical all blade gravity solar thermal turbine driven in all. タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction, liquid lead alloy is accelerated downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times turbine 3 types driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbine in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16x turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbine in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternate rotation direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction, liquid lead alloy is accelerated downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-fold turbine driven 3 types of liquid metal gravity solar engine + equipment method to make all output generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing the compressed air by the flow path length lens, and the vertical combustion blade gravity solar heat turbine driven by the combustion gas calorie and mass is provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by the flow path length lens, and the vertical movement is driven by all the combustion gas calorie and mass selectable for liquid oxygen injection Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times larger turbine driven 3 types of liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that drives turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air with heat from a flow path lens. タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + increase ball lift device (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure obtained by dividing the heat of compressed air by the flow path length lens and stored separately. Various energy storage cycle coalescing engine. タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising sphere climbing device (2F) ascending and storing the liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed air by the flow path length lens, and the combustion gas calorie pressure and mass pressure are driven. Various energy storage cycle coalescing engine. タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the direction of rotation to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) is doubled turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) is provided with turbines alternately rotating in the rotational direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 4x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times turbine 3 types of liquid metal gravity solar thermal engine + horizontal axis (1h) with rotating turbines in alternate rotation direction to drive liquid metal downwards + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6 times turbine driven 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Various energy storage cycle coalescence engines equipped with vertical type moving blade gravity solar turbine driven by all of combustion gas calorie and mass that can be driven by each plus + liquid oxygen injection. タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to accelerate the liquid metal down + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical type moving blade gravity solar turbine that drives each turbine at タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid metal downward + various aircraft such as space shuttle Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravitational solar turbine that drives the turbine at + and all the combustion gas heat and mass. タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9x turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive liquid metal downwards + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with all-drive vertical rotor blade gravity solar turbines. タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated by gravity acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The equipment (2F) is used to store and store liquid metal + The intake air flow path length lens can be used to drive the turbine with combustion gas calorie pressure and mass pressure obtained by separately storing compressed air with compressed heat recovery + Liquid oxygen injection can be selected Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that is driven by all the combustion gas heat and mass. タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driven by rotational force + increasing sphere rising The device (2F) uses liquid metal ascending and storing + Inlet air flow path length lens is used to heat the compressed air by dividing and storing the combustion gas, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with solar heat turbine. タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times turbine 3 types of liquid metal gravity solar engine + power increasing sphere (2E) accelerated downward by gravitational acceleration Turbine driving + various vehicles driving rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating saddle-type all-blade gravity solar turbine that is driven entirely. タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating vertical all blade gravity solar thermal turbine driven in all. タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times turbine 3 types driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbine in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16x turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbine in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternate rotation direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction, liquid lead alloy is accelerated downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing the compressed air by the flow path length lens, and the vertical combustion blade gravity solar heat turbine driven by the combustion gas calorie and mass is provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times larger turbine driven 3 types of liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by the flow path length lens, and the vertical movement is driven by all the combustion gas calorie and mass selectable for liquid oxygen injection Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + increase ball lift device (2F) to use and store liquid metal + intake air Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that drives turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air with heat from a flow path lens. タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising sphere climbing device (2F) ascending and storing the liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure obtained by dividing the heat of compressed air by the flow path length lens and stored separately. Various energy storage cycle coalescing engine. タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed air by the flow path length lens, and the combustion gas calorie pressure and mass pressure are driven. Various energy storage cycle coalescing engine. タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) is doubled turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) is provided with turbines alternately rotating in the rotational direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 4x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 5 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6 times turbine driven 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to accelerate the liquid metal down + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Various energy storage cycle coalescence engines equipped with vertical type moving blade gravity solar turbine driven by all of combustion gas calorie and mass that can be driven by each plus + liquid oxygen injection. タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid metal downward + various aircraft such as space shuttle Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical type moving blade gravity solar turbine that drives each turbine at タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9x turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive liquid metal downwards + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravitational solar turbine that drives the turbine at + and all the combustion gas heat and mass. タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated by gravity acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with all-drive vertical rotor blade gravity solar turbines. タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driven by rotational force + increasing sphere rising The equipment (2F) is used to store and store liquid metal + The intake air flow path length lens can be used to drive the turbine with combustion gas calorie pressure and mass pressure obtained by separately storing compressed air with compressed heat recovery + Liquid oxygen injection can be selected Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that is driven by all the combustion gas heat and mass. タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times turbine 3 types of liquid metal gravity solar engine + power increasing sphere (2E) accelerated downward by gravitational acceleration Turbine driving + various vehicles driving rotational force + increasing sphere rising The device (2F) uses liquid metal ascending and storing + Inlet air flow path length lens is used to heat the compressed air by dividing and storing the combustion gas, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with solar heat turbine. タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating saddle-type all-blade gravity solar turbine that is driven entirely. タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating vertical all blade gravity solar thermal turbine driven in all. タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16x turbine 3 types driven liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbine in alternate rotation direction to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternate rotation direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction, liquid lead alloy is accelerated downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 20 times the power of three types of turbines driven by liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times larger turbine driven 3 types of liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing the compressed air by the flow path length lens, and the vertical combustion blade gravity solar heat turbine driven by the combustion gas calorie and mass is provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + increase ball lift device (2F) to use and store liquid metal + intake air Turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by the flow path length lens, and the vertical movement is driven by all the combustion gas calorie and mass selectable for liquid oxygen injection Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising sphere climbing device (2F) ascending and storing the liquid metal + intake air Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that drives turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air with heat from a flow path lens. タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure obtained by dividing the heat of compressed air by the flow path length lens and stored separately. Various energy storage cycle coalescing engine. タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 25-fold turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all output generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed air by the flow path length lens, and the combustion gas calorie pressure and mass pressure are driven. Various energy storage cycle coalescing engine. タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) is doubled turbine 3 type liquid metal gravity solar heat engine + horizontal axis (1h) is provided with turbines alternately rotating in the rotational direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 4x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 5 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 6 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to accelerate the liquid metal down + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical all blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid metal downward + various aircraft such as space shuttle Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Various energy storage cycle coalescence engines equipped with vertical type moving blade gravity solar turbine driven by all of combustion gas calorie and mass that can be driven by each plus + liquid oxygen injection. タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9x turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive liquid metal downwards + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescence engine equipped with a vertical type moving blade gravity solar turbine that drives each turbine at タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravitational solar turbine that drives the turbine at + and all the combustion gas heat and mass. タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotational force injection propulsion driving + Increase sphere climbing device (2F) to save and use liquid metal + Intake air flow path length lens heating air compressed and compressed heat recovery divided combustion gas calorie pressure and mass pressure Each energy storage cycle coalescing engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all of the combustion gas heat and mass. タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles driven by rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with all-drive vertical rotor blade gravity solar turbines. タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times turbine 3 types of liquid metal gravity solar engine + power increasing sphere (2E) accelerated downward by gravitational acceleration Turbine driving + various vehicles driving rotational force + increasing sphere rising The equipment (2F) is used to store and store liquid metal + The intake air flow path length lens can be used to drive the turbine with combustion gas calorie pressure and mass pressure obtained by separately storing compressed air with compressed heat recovery + Liquid oxygen injection can be selected Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that is driven by all the combustion gas heat and mass. タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses liquid metal ascending and storing + Inlet air flow path length lens is used to heat the compressed air by dividing and storing the combustion gas, and the turbine is driven by the combustion gas calorific pressure and mass pressure, respectively. Various energy conservation cycle coalescence engine with solar heat turbine. タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating saddle-type all-blade gravity solar turbine that is driven entirely. タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses the liquid metal ascending and storing + The intake air passage length lens is used to heat the compressed air and the turbine is driven by the combustion gas calorie pressure and mass pressure that are separately stored + combustion gas calorie and mass Various energy conservation cycle coalescing engines equipped with a counter-rotating vertical all blade gravity solar thermal turbine driven in all. タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternate rotation direction to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction, liquid lead alloy is accelerated downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-times turbine three-type liquid metal gravity solar engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 20 times the power of three types of turbines driven by liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating alternately to accelerate the liquid lead alloy downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times the power of 3 types of turbines driven by liquid metal gravity solar engine + horizontal axis (1h) to provide rotating turbines with alternating rotation direction + liquid lead alloy accelerated downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generating turbine blades + increase ball lift device (2F) to use and store liquid metal + intake air The turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing the compressed air by the flow path length lens, and the vertical combustion blade gravity solar heat turbine driven by the combustion gas calorie and mass is provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times the turbine 3 types of liquid metal gravity solar heat engine + equipment method to make all the power generation turbine blades + rising sphere climbing device (2F) ascending and storing the liquid metal + intake air Turbine is driven by the combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air by the flow path length lens, and the vertical movement is driven by all the combustion gas calorie and mass selectable for liquid oxygen injection Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the turbine 3 types of driving liquid metal gravity solar engine + equipment method to make all the power generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar turbine that drives turbines with combustion gas calorie pressure and mass pressure obtained by dividing and storing compressed air with heat from a flow path lens. タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 25-fold turbine driven 3 types of liquid metal gravity solar heat engine + equipment method to make all output generating turbine blades + rising ball rising device (2F) to use and store liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure obtained by dividing the heat of compressed air by the flow path length lens and stored separately. Various energy storage cycle coalescing engine. タービン翼断面(4X)を2倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) double turbine 3 type liquid metal gravity solar heat engine driven by the turbine + equipment method to make all the power generation turbine blades + rising ball riser (2F) to save and use liquid metal + intake air Turbine is driven by combustion gas calorie pressure and mass pressure, which is obtained by dividing and storing compressed air by the flow path length lens, and the combustion gas calorie pressure and mass pressure are driven. Various energy storage cycle coalescing engine. タービン翼断面(4X)を3倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored in the combustion gas Drive the turbine with combustion gas calorie pressure and mass pressure respectively + Vertical movement of all combustion gas calorie and mass drive Various energy storage cycle coalescing engine with wing gravity solar heat turbine. タービン翼断面(4X)を4倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 4x turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines in alternating rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Intake air flow path length lens Compressed heat recovery Divided and stored combustion gas Drives combustion gas calorie pressure and mass pressure respectively + Combustion gas calorie and mass selectable for liquid oxygen injection Combined engine with various energy conservation cycles equipped with a vertical all-blade gravity solar turbine driven by タービン翼断面(4X)を5倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 5 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines alternately rotating direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Compressed heat recovery with heated intake air path length lens Divide and store heated air Combustion gas calorie pressure and mass pressure respectively drive turbine + Various type of energy storage with vertical rotor blade gravity solar turbine Cycle coalescence engine. タービン翼断面(4X)を6倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 6 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) to provide rotational turbines with alternate rotation direction to accelerate specific critical materials downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored compressed air Combustion gas calorie pressure and mass pressure respectively drive turbine + Combustion gas calorie and mass drive Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を7倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+吸入空気流路長レンズで加熱の空気を圧縮熱回収分割保存した燃焼ガス熱量圧力及び質量圧力でタービンを夫々駆動する+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with the turbine rotating alternately in the rotational direction to accelerate the relative critical material downward + intake air flow path length Increase the propulsion output by the combustion gas calorific value and mass aiming at infinity with the heat pump (1G) and air heat exchanger (2X) for the air heated by the lens (28a) + increase the liquid metal with the increase ball lift device (2F) Use ascending storage + Inlet air flow path length lens Compressed heat recovery Divided and stored combustion gas Turbine is driven by combustion gas calorie pressure and mass pressure + Combustion gas calorie and mass drive double reversal Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を8倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating alternately to drive liquid metal downward + various aircraft such as space shuttle Rotating force injection driving force + Increased sphere rising device (2F) to save and use liquid metal + Accelerate with combustion gas calorie and mass or compressed air calorie and mass pressure + Combustion gas calorie and mass All energy storage cycle coalescing engine equipped with a vertical all blade gravity solar turbine driven by タービン翼断面(4X)を9倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9x turbine 3 types of liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive liquid metal downwards + various aircraft such as spacecraft Rotational force injection propulsion power driven + Increased sphere rising device (2F) to save and use liquid metal + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass Select liquid oxygen injection Various energy conservation cycle coalescing engines equipped with a vertical all blade gravity solar turbine driven by all possible combustion gas heat and mass. タービン翼断面(4X)を10倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotational direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force injection propulsion driving + Increased sphere rising device (2F) to save and use liquid metal + Accelerate with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass Various energy conservation cycle coalescence engine with gravity solar thermal turbine. タービン翼断面(4X)を11倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times the turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to drive the liquid metal downward + various aircraft such as spacecraft Rotating force injection driving force + Increased sphere rising device (2F) to save and use liquid metal + Accelerate with combustion gas calorie and mass or compressed air calorie and mass pressure + Combustion gas calorie and mass All energy storage cycle coalescing engine equipped with a counter rotating saddle type full rotor blade gravity solar turbine driven by タービン翼断面(4X)を12倍のタービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times turbine 3 types of liquid metal gravity solar heat engine + horizontal axis (1h) with rotational turbines rotating alternately to drive liquid metal downward + various aircraft such as spacecraft Rotating force injection driving force + Increased sphere rising device (2F) to save and use liquid metal + Accelerate with combustion gas calorie and mass or compressed air calorie and mass pressure + Combustion gas calorie and mass All energy conservation cycle coalescence engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all. タービン翼断面(4X)を13倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times turbine 3 types of liquid metal gravity solar engine + power increasing sphere (2E) accelerated downward by gravitational acceleration Turbine driving + various vehicles driving rotational force + increasing sphere rising Uplift and storage of liquid metal in equipment (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical moving blade gravity solar heat turbine driven by combustion gas calorie and mass Various energy storage cycle coalescing engine. タービン翼断面(4X)を14倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times the turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The device (2F) uses liquid metal ascending and storing + Acceleration by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Driven by all combustion gas calorie and mass selectable for liquid oxygen injection Various energy conservation cycle coalescing engine equipped with type full blade gravity solar thermal turbine. タービン翼断面(4X)を15倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times the turbine 3 types of liquid metal gravity solar heat engine + output increasing sphere (2E) is accelerated downward by gravitational acceleration turbine driving + various vehicles are driven by rotational force + increasing sphere rising The equipment (2F) is used for ascending and storing liquid metal + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + various energy conservation cycle coalescence engine provided with vertical type full-blade gravity solar turbine タービン翼断面(4X)を16倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times turbine 3 types of liquid metal gravity solar heat engine + output increase sphere (2E) is accelerated downward by gravity acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The equipment (2F) uses liquid metal ascending and storing + accelerating with the pressure divided and stored in the combustion gas calorie and mass or compressed air calorie and mass + the counter-rotating vertical all blade driven by the combustion gas calorie and mass Various energy conservation cycle coalescence engine with gravity solar thermal turbine. タービン翼断面(4X)を17倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times the turbine 3 types of liquid metal gravity solar engine + power increase sphere (2E) is accelerated downward by gravitational acceleration turbine drive + various vehicles are driven by rotational force + increase sphere rise The equipment (2F) uses liquid metal ascending and storing + combustion gas calorie and mass or compressed air divided and stored in pressure and pressure acceleration + combustion gas calorie and mass driven inverted vertical type all blades Various energy conservation cycle coalescence engine with gravity solar thermal turbine. タービン翼断面(4X)を18倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times the turbine 3 types of driving liquid metal gravity solar heat engine + configuration and method of accelerating the power increase sphere (2E) + intake air flow path length lens heating air compression compressed fuel recovery fuel injection Recovers combustion heat and uses divided storage + Increases and stores liquid metal in the rising ball lift device (2F) + Accelerates with combustion gas calorie and mass or compressed air calorie and mass pressure + Combustion gas calorie and mass All energy storage cycle coalescing engine equipped with a vertical all blade gravity solar turbine driven by タービン翼断面(4X)を19倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 19-times turbine three-type liquid metal gravity solar engine + configuration and method for accelerating output sphere (2E) + intake air flow path length lens to heat compressed air for heat recovery Recover combustion heat and use divided storage + Increase and store liquid metal in the rising ball lift device (2F) + Select acceleration or liquid oxygen injection by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with a vertical all blade gravity solar turbine driven by all possible combustion gas heat and mass. タービン翼断面(4X)を20倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times the turbine three-type liquid metal gravity solar heat engine + configuration and method of accelerating the power increase sphere (2E) + intake air passage length lens heating air compressed heat recovery fuel injection Recovers combustion heat and uses divided storage + Increases and stores liquid metal in the rising sphere riser (2F) + Accelerates by combustion gas heat and mass or compressed air heat and mass and pressure + vertical all blade Various energy conservation cycle coalescence engine with gravity solar thermal turbine. タービン翼断面(4X)を21倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+燃焼ガス熱量と質量の全部で駆動する二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times the turbine 3 types of driving liquid metal gravity solar heat engine + configuration and method of accelerating the power increase sphere (2E) + intake air passage length lens heating air compressed heat recovery fuel injection Recovers combustion heat and uses divided storage + Increases and stores liquid metal in the rising ball lift device (2F) + Accelerates with combustion gas calorie and mass or compressed air calorie and mass pressure + Combustion gas calorie and mass All energy storage cycle coalescing engine equipped with a counter rotating saddle type full rotor blade gravity solar turbine driven by タービン翼断面(4X)を22倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+燃焼ガス熱量と質量の全部で駆動の二重反転竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the turbine 3 types of liquid metal gravity solar heat engine + configuration and method of accelerating the power increasing sphere (2E) + intake air flow path length lens heating air compressed heat recovery fuel injection Recovers combustion heat and uses divided storage + Increases and stores liquid metal in the rising ball lift device (2F) + Accelerates with combustion gas calorie and mass or compressed air calorie and mass pressure + Combustion gas calorie and mass All energy conservation cycle coalescence engine equipped with a counter-rotating vertical all-blade gravity solar turbine driven by all. タービン翼断面(4X)を23倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+燃焼ガス熱量と質量の全部で駆動の竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times the turbine 3 types of driving liquid metal gravity solar heat engine + configuration and method of accelerating the power increase sphere (2E) + intake air passage length lens heating air compressed heat recovery fuel injection Recovers combustion heat and uses divided storage + Increases and stores liquid metal in the rising ball lift device (2F) + Accelerates with combustion gas calorie and mass or compressed air calorie and mass pressure + Combustion gas calorie and mass All energy storage cycle coalescing engine equipped with a vertical all blade gravity solar turbine driven by タービン翼断面(4X)を24倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体酸素圧入が選択可能な燃焼ガス熱量と質量の全部で駆動する竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 24x turbine three-type driven liquid metal gravity solar engine + configuration and method of accelerating output sphere (2E) + intake air passage length lens heating air compressed heat recovery fuel injection Recover combustion heat and use divided storage + Increase and store liquid metal in the rising ball lift device (2F) + Select acceleration or liquid oxygen injection by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with a vertical all blade gravity solar turbine driven by all possible combustion gas heat and mass. タービン翼断面(4X)を25倍のタービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+竪型全動翼重力太陽熱タービンを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times the turbine 3 types of driving liquid metal gravity solar heat engine + configuration and method of accelerating the power increase sphere (2E) + intake air passage length lens heating air compressed heat recovery fuel injection Recovers combustion heat and uses divided storage + Increases and stores liquid metal in the rising sphere riser (2F) + Accelerates by combustion gas heat and mass or compressed air heat and mass and pressure + vertical all blade Various energy conservation cycle coalescence engine with gravity solar thermal turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines with solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engine with two stages of moving blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by specific material acceleration in 3 stages Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific staged all blade gravity solar thermal turbine with acceleration driven to 4 stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar turbine driven by specific material rolling contact in 5 stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + combustion gas calorie and mass or compressed air calorie and pressure is divided and stored in pressure + liquid metal (2E) is accelerated to drive a vertical all blade gravity solar thermal turbine 6 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + acceleration with combustion gas calorie and mass or compressed air calorie and pressure divided storage + swing type full rotor blade gravity solar heat that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with 7 stages of turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending and storing liquid metal + Combustion gas calorie and mass or compressed air calorie and pressure are stored separately and accelerated + Specific critical material acceleration drive vertical type full-blade gravity solar thermal turbine is installed in 8 stages Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by specific material acceleration is provided in 9 stages Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + combustion gas calorie and mass or compressed air calorie and pressure is stored separately and acceleration + specific critical material acceleration drive vertical type full blade gravity solar thermal turbine is installed in 10 stages Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar heat turbine driven by specific material acceleration provided in one stage Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical wing gravity solar thermal turbine driven by specific material acceleration in two stages Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending and storage + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Specific staged all-blade gravitational solar turbine in three stages to accelerate acceleration Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific staged all blade gravity solar thermal turbine with acceleration driven to 4 stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending and storage + Accelerate with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific critical substances in 5 stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending and storage + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Specific stage 6-stage full-rotor gravity solar thermal turbine driven by acceleration Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + accelerating by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific major material acceleration driven vertical type rotor blade gravity solar turbine in 7 stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific major material rolling contact driven vertical all blade gravity solar thermal turbine in 8 stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific heavy material rolling contact driven vertical all blade gravity solar turbine in 9 stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + accelerating by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific heavy material rolling contact driven vertical all blade gravity solar turbine in 10 stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific large material rolling contact driven vertical all blade gravity solar turbine in one stage Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Specific large material rolling contact driven vertical full blade gravity solar turbine in two stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + combustion gas calorie and mass or compressed air calorie and pressure is divided and stored in pressure + liquid metal (2E) is accelerated to drive a vertical all blade gravity solar turbine 3 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use ascending storage of liquid metal + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine that accelerates liquid metal (2E) 4 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + combustion gas calorie and mass or compressed air calorie and pressure is stored separately and accelerated + liquid metal (2E) is driven by a vertical all blade gravity solar thermal turbine 5 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + combustion gas calorie and mass or compressed air calorie and pressure is divided and stored in pressure + liquid metal (2E) is accelerated to drive a vertical all blade gravity solar thermal turbine 6 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) The liquid metal is used for ascending storage + combustion gas calorie and mass or compressed air calorie and pressure is accelerated and stored in a vertical all blade gravity solar thermal turbine that accelerates and drives the liquid metal (2E) 7 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + acceleration with combustion gas calorie and mass or compressed air calorie and pressure divided storage + swing type full rotor blade gravity solar heat that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine with 8 stages of turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + acceleration with combustion gas calorie and mass or compressed air calorie and pressure divided storage + swing type full rotor blade gravity solar heat that accelerates liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engine with 9 stages of turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + acceleration with combustion gas calorie and mass or compressed air calorie and pressure divided storage + swing type full rotor blade gravity solar heat that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine with 10 stages of turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + acceleration with combustion gas calorie and mass or compressed air calorie and pressure divided storage + swing type full rotor blade gravity solar heat that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engines with one turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + acceleration with combustion gas calorie and mass or compressed air calorie and pressure divided storage + swing type full rotor blade gravity solar heat that accelerates liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engine with two stages of turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Combined with various energy conservation cycle with 3 types of vertical rotor blade gravity solar turbines organ. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Combined with various energy conservation cycle with 4 types of vertical rotor blade gravity solar turbines organ. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Combined with various energy conservation cycle equipped with vertical type moving blade gravity solar turbine in 5 stages organ. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + Acceleration with pressure divided and stored into combustion gas calorie and mass or compressed air calorie and mass + Combined with various energy conservation cycle equipped with 6-stage full blade gravity solar thermal turbine organ. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Combined with various energy conservation cycle with 7-stage full rotor blade gravity solar turbine organ. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Various energy storage cycle coalescing engines equipped with 8 types of vertical moving blade gravity solar heat turbines that are driven by acceleration + specific critical material acceleration driving + pressure to be stored and used + combustion gas calorie and mass or compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation + Combustion gas heat quantity and mass or compressed air heat quantity and mass accelerating with pressure divided + Preservation of specific critical materials Accelerating drive of vertical type all blade gravity solar heat turbine with 9 stages . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation + Combustion gas heat quantity and mass or compressed air heat quantity and mass accelerating by pressure and storage + specific critical material rolling contact driven vertical all blade gravitational solar heat turbine equipped with 10 stages, various energy storage cycle coalescence engine . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation and use + Acceleration by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Various energy conservation cycles with a vertical all blade gravity solar turbine that drives liquid metal (2E) in one stage Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation use + Acceleration with combustion gas calorie and mass or compressed air calorie and mass storage + Various types of vertical rotor blade gravity solar turbines that drive liquid metal with compressed air calorie and mass in two stages Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines that are driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with four-stage vertical rotor blade gravity solar turbines that accelerate and drive specific critical materials with the pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine equipped with 5 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air heat quantity and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, various energy storage cycle coalescence engines provided with six stages of vertical rotor blade gravity solar turbines that accelerate and drive liquid metal (2E) with pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with a 7-stage vertical rotor blade gravity solar turbine that accelerates with pressure compressed and stored in compressed air calorie and mass + liquid metal is accelerated with compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar heat turbines driven by acceleration and specific material acceleration by dividing and storing pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with a 9-stage vertical rotor blade gravity solar turbine that accelerates and accelerates the acceleration of specific critical materials using divided and stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with 10 stages of vertical rotor blade gravity solar heat turbines driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle coalescing engines with a vertical all-blade gravity solar heat turbine that accelerates and accelerates liquid metal (2E) with pressure that is stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with a two-stage vertical rotor blade gravity solar turbine that accelerates by dividing and storing pressure + liquid metal is accelerated by compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines that are driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with four-stage vertical rotor blade gravity solar turbines that accelerate and drive specific critical materials with the pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine equipped with 5 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air heat quantity and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, various energy storage cycle coalescence engines provided with six stages of vertical rotor blade gravity solar turbines that accelerate and drive liquid metal (2E) with pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with a 7-stage vertical rotor blade gravity solar turbine that accelerates with pressure compressed and stored in compressed air calorie and mass + liquid metal is accelerated with compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by specific material acceleration Various energy storage cycle coalescing engine in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material Various energy conservation cycle coalescing engines with 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine Various energy conservation cycle coalescing engines with 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines with solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engine with two stages of moving blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Various energy storage cycle coalescing engines equipped with a vertical all rotor blade gravity solar turbine that is driven + accelerated with the pressure divided and stored into combustion gas calorie and mass or compressed air calorie and mass to be used and driven by specific critical material acceleration. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerating by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Various energy conservation cycle coalescence engine equipped with 4 types of vertical rotor blade gravity solar turbines driven by acceleration of specific critical substances. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Combined engine with various energy storage cycles equipped with 5 stages of vertical type moving blade gravity solar turbines that are driven + accelerated with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific critical material rolling contact drive. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Combined various energy conservation cycle with 6-stage vertical moving blade gravity solar turbine that accelerates liquid metal (2E) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with combustion gas calorie and mass or compressed air calorie and pressure and save + Various all-blade gravitational solar turbines with 7 stages to drive liquid metal with compressed air calorie and mass Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with 8 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with a 9-stage vertical rotor blade gravity solar turbine that accelerates and accelerates specific critical substances with compressed pressure and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engines equipped with 10 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine which provided the vertical type moving blade gravity solar heat turbine which accelerates and accelerates liquid metal (2E) with the pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with two-stage vertical rotor blade gravity solar turbines that accelerate with a pressure divided and stored in compressed air heat and mass + liquid metal accelerated with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar thermal turbines that are driven by the pressure stored separately and accelerated by specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with four-stage vertical rotor blade gravity solar turbines that accelerate and accelerate the acceleration of specific critical materials with pressures stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescence engine equipped with 5 stages of vertical rotor blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescence engine equipped with 6-stage vertical rotor blade gravity solar turbine that accelerates and accelerates the liquid metal (2E) with the pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with a 7-stage vertical all blade gravity solar turbine that accelerates and accelerates liquid metal with compressed air calorie and mass with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with 8 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with a 9-stage vertical rotor blade gravity solar turbine that accelerates and accelerates specific critical substances with compressed pressure and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engines equipped with 10 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine which provided the vertical type moving blade gravity solar heat turbine which accelerates and accelerates liquid metal (2E) with the pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with two-stage vertical rotor blade gravity solar turbines that accelerate with a pressure divided and stored in compressed air heat and mass + liquid metal accelerated with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by specific material acceleration Various energy storage cycle coalescing engine in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material Various energy conservation cycle coalescing engine with 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine Various energy conservation cycle coalescing engine with 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engine with 6 solar heat turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engines with 7-stage rotor blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar turbines that are driven + accelerated with the pressure divided and stored into combustion gas calorie and mass or compressed air calorie and mass to be used. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Various energy conservation cycle coalescing engines equipped with 9-stage vertical all blade gravitational solar heat turbine that accelerates specific critical substances. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Combined engine with various energy storage cycles equipped with 10 types of vertical rotor blade gravity solar turbines that use + acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific critical material rolling contact drive. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Combined with various energy conservation cycle equipped with a vertical all blade gravity solar turbine that drives liquid metal (2E) in one stage organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with combustion gas calorie and mass or compressed air calorie and pressure and storage + Various types of energy provided in two stages of vertical rotor blade gravity solar turbine that accelerates liquid metal with compressed air calorie and mass Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines that are driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with four-stage vertical rotor blade gravity solar turbines that accelerate and drive specific critical materials with the pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine equipped with 5 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air heat quantity and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, various energy storage cycle coalescence engines provided with six stages of vertical rotor blade gravity solar turbines that accelerate and drive liquid metal (2E) with pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with a 7-stage vertical rotor blade gravity solar turbine that accelerates with pressure compressed and stored in compressed air calorie and mass + liquid metal is accelerated with compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar heat turbines driven by acceleration and specific material acceleration by dividing and storing pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with a 9-stage vertical rotor blade gravity solar turbine that accelerates and accelerates the acceleration of specific critical materials using divided and stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with 10 stages of vertical rotor blade gravity solar heat turbines driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle coalescing engines with a vertical all-blade gravity solar heat turbine that accelerates and accelerates liquid metal (2E) with pressure that is stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with a two-stage vertical rotor blade gravity solar turbine that accelerates by dividing and storing pressure + liquid metal is accelerated by compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines that are driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with four-stage vertical rotor blade gravity solar turbines that accelerate and drive specific critical materials with the pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine equipped with 5 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air heat quantity and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, various energy storage cycle coalescence engines provided with six stages of vertical rotor blade gravity solar turbines that accelerate and drive liquid metal (2E) with pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with a 7-stage vertical rotor blade gravity solar turbine that accelerates with pressure compressed and stored in compressed air calorie and mass + liquid metal is accelerated with compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by specific material acceleration Various energy storage cycle coalescing engine in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material Various energy conservation cycle coalescing engines with 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine Various energy conservation cycle coalescing engines with 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines with solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engine with two stages of moving blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Various energy storage cycle coalescing engines equipped with a vertical all rotor blade gravity solar turbine that is driven + accelerated with the pressure divided and stored into combustion gas calorie and mass or compressed air calorie and mass to be used and driven by specific critical material acceleration. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward by gravitational acceleration Turbine driving + Driving various vehicles by rotational force + Increasing sphere lifting device (2F) Used + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Various energy conservation cycle coalescing engines equipped with 4 types of vertical rotor blade gravity solar turbines driven by acceleration of specific critical substances. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Combined engine with various energy storage cycles equipped with 5 stages of vertical type moving blade gravity solar turbines that are driven + accelerated with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific critical material rolling contact drive. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Combined various energy conservation cycle with 6-stage vertical moving blade gravity solar turbine that accelerates liquid metal (2E) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with combustion gas calorie and mass or compressed air calorie and pressure and save + Various all-blade gravitational solar turbines with 7 stages to drive liquid metal with compressed air calorie and mass Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with 8 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with a 9-stage vertical rotor blade gravity solar turbine that accelerates and accelerates specific critical substances with compressed pressure and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engines equipped with 10 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine which provided the vertical type moving blade gravity solar heat turbine which accelerates and accelerates liquid metal (2E) with the pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with two-stage vertical rotor blade gravity solar turbines that accelerate with a pressure divided and stored in compressed air heat and mass + liquid metal accelerated with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar thermal turbines that are driven by the pressure stored separately and accelerated by specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with four-stage vertical rotor blade gravity solar turbines that accelerate and accelerate the acceleration of specific critical materials with pressures stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescence engine equipped with 5 stages of vertical rotor blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with 6-stage vertical rotor blade gravity solar turbine that accelerates and accelerates liquid metal (2E) with divided and stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with a 7-stage vertical all blade gravity solar turbine that accelerates and accelerates liquid metal with compressed air calorie and mass with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with 8 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with a 9-stage vertical rotor blade gravity solar turbine that accelerates and accelerates specific critical substances with compressed pressure and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engines equipped with 10 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine which provided the vertical type moving blade gravity solar heat turbine which accelerates and accelerates liquid metal (2E) with the pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with two-stage vertical rotor blade gravity solar turbines that accelerate with a pressure divided and stored in compressed air heat and mass + liquid metal accelerated with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by specific material acceleration Various energy storage cycle coalescing engine in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material Various energy conservation cycle coalescing engine with 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine Various energy conservation cycle coalescing engine with 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engine with 6 solar heat turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engines with 7-stage rotor blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar turbines that are driven + accelerated with the pressure divided and stored into combustion gas calorie and mass or compressed air calorie and mass to be used. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Various energy conservation cycle coalescing engines equipped with 9-stage vertical all blade gravitational solar heat turbine that accelerates specific critical substances. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Combined engine with various energy storage cycles equipped with 10 types of vertical rotor blade gravity solar turbines that use + acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific critical material rolling contact drive. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Combined with various energy conservation cycle equipped with a vertical all blade gravity solar turbine that drives liquid metal (2E) in one stage organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with combustion gas calorie and mass or compressed air calorie and pressure and storage + Various types of energy provided in two stages of vertical rotor blade gravity solar turbine that accelerates liquid metal with compressed air calorie and mass Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines that are driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with four-stage vertical rotor blade gravity solar turbines that accelerate and drive specific critical materials with the pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine equipped with 5 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air heat quantity and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, various energy storage cycle coalescence engines provided with six stages of vertical rotor blade gravity solar turbines that accelerate and drive liquid metal (2E) with pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with a 7-stage vertical rotor blade gravity solar turbine that accelerates with pressure compressed and stored in compressed air calorie and mass + liquid metal is accelerated with compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar heat turbines driven by acceleration and specific material acceleration by dividing and storing pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with a 9-stage vertical rotor blade gravity solar turbine that accelerates and accelerates the acceleration of specific critical materials using divided and stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with 10 stages of vertical rotor blade gravity solar heat turbines driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle coalescing engines with a vertical all-blade gravity solar heat turbine that accelerates and accelerates liquid metal (2E) with pressure that is stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with a two-stage vertical rotor blade gravity solar turbine that accelerates by dividing and storing pressure + liquid metal is accelerated by compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines that are driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with four-stage vertical rotor blade gravity solar turbines that accelerate and drive specific critical materials with the pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine equipped with 5 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air heat quantity and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, various energy storage cycle coalescence engines provided with six stages of vertical rotor blade gravity solar turbines that accelerate and drive liquid metal (2E) with pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with a 7-stage vertical rotor blade gravity solar turbine that accelerates with pressure compressed and stored in compressed air calorie and mass + liquid metal is accelerated with compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by specific material acceleration Various energy storage cycle coalescing engine in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material Various energy conservation cycle coalescing engines with 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine Various energy conservation cycle coalescing engines with 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines with solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engine with two stages of moving blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Various energy storage cycle coalescing engines equipped with a vertical all rotor blade gravity solar turbine that is driven + accelerated with the pressure divided and stored into combustion gas calorie and mass or compressed air calorie and mass to be used and driven by specific critical material acceleration. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerating by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Various energy conservation cycle coalescence engine equipped with 4 types of vertical rotor blade gravity solar turbines driven by acceleration of specific critical substances. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Combined engine with various energy storage cycles equipped with 5 stages of vertical type moving blade gravity solar turbines that are driven + accelerated with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific critical material rolling contact drive. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Combined various energy conservation cycle with 6-stage vertical moving blade gravity solar turbine that accelerates liquid metal (2E) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with combustion gas calorie and mass or compressed air calorie and pressure and save + Various all-blade gravitational solar turbines with 7 stages to drive liquid metal with compressed air calorie and mass Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with 8 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with a 9-stage vertical rotor blade gravity solar turbine that accelerates and accelerates specific critical substances with compressed pressure and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engines equipped with 10 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine which provided the vertical type moving blade gravity solar heat turbine which accelerates and accelerates liquid metal (2E) with the pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with two-stage vertical rotor blade gravity solar turbines that accelerate with a pressure divided and stored in compressed air heat and mass + liquid metal accelerated with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar thermal turbines that are driven by the pressure stored separately and accelerated by specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with four-stage vertical rotor blade gravity solar turbines that accelerate and accelerate the acceleration of specific critical materials with pressures stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescence engine equipped with 5 stages of vertical rotor blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescence engine equipped with 6-stage vertical rotor blade gravity solar turbine that accelerates and accelerates the liquid metal (2E) with the pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with a 7-stage vertical all blade gravity solar turbine that accelerates and accelerates liquid metal with compressed air calorie and mass with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with 8 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with a 9-stage vertical rotor blade gravity solar turbine that accelerates and accelerates specific critical substances with compressed pressure and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engines equipped with 10 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine which provided the vertical type moving blade gravity solar heat turbine which accelerates and accelerates liquid metal (2E) with the pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with two-stage vertical rotor blade gravity solar turbines that accelerate with a pressure divided and stored in compressed air heat and mass + liquid metal accelerated with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by specific material acceleration Various energy storage cycle coalescing engine in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material Various energy conservation cycle coalescing engine with 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine Various energy conservation cycle coalescing engine with 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engine with 6 solar heat turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engines with 7-stage rotor blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar turbines that are driven + accelerated with the pressure divided and stored into combustion gas calorie and mass or compressed air calorie and mass to be used. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Various energy conservation cycle coalescing engines equipped with 9-stage vertical all blade gravitational solar heat turbine that accelerates specific critical substances. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Combined engine with various energy storage cycles equipped with 10 types of vertical rotor blade gravity solar turbines that use + acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific critical material rolling contact drive. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Combined with various energy conservation cycle equipped with a vertical all blade gravity solar turbine that drives liquid metal (2E) in one stage organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with combustion gas calorie and mass or compressed air calorie and pressure and storage + Various types of energy provided in two stages of vertical rotor blade gravity solar turbine that accelerates liquid metal with compressed air calorie and mass Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines that are driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with four-stage vertical rotor blade gravity solar turbines that accelerate and drive specific critical materials with the pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine equipped with 5 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air heat quantity and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, various energy storage cycle coalescence engines provided with six stages of vertical rotor blade gravity solar turbines that accelerate and drive liquid metal (2E) with pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with a 7-stage vertical rotor blade gravity solar turbine that accelerates with pressure compressed and stored in compressed air calorie and mass + liquid metal is accelerated with compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar heat turbines driven by acceleration and specific material acceleration by dividing and storing pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with a 9-stage vertical rotor blade gravity solar turbine that accelerates and accelerates the acceleration of specific critical materials using divided and stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with 10 stages of vertical rotor blade gravity solar heat turbines driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle coalescing engines with a vertical all-blade gravity solar heat turbine that accelerates and accelerates liquid metal (2E) with pressure that is stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with a two-stage vertical rotor blade gravity solar turbine that accelerates by dividing and storing pressure + liquid metal is accelerated by compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines that are driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with four-stage vertical rotor blade gravity solar turbines that accelerate and drive specific critical materials with the pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine equipped with 5 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air heat quantity and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, various energy storage cycle coalescence engines provided with six stages of vertical rotor blade gravity solar turbines that accelerate and drive liquid metal (2E) with pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with a 7-stage vertical rotor blade gravity solar turbine that accelerates with pressure compressed and stored in compressed air calorie and mass + liquid metal is accelerated with compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by specific material acceleration Various energy storage cycle coalescing engine in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material Various energy conservation cycle coalescing engines with 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine Various energy conservation cycle coalescing engines with 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines with solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engine with two stages of moving blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Various energy storage cycle coalescing engines equipped with a vertical all rotor blade gravity solar turbine that is driven + accelerated with the pressure divided and stored into combustion gas calorie and mass or compressed air calorie and mass to be used and driven by specific critical material acceleration. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerating by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Various energy conservation cycle coalescence engine equipped with 4 types of vertical rotor blade gravity solar turbines driven by acceleration of specific critical substances. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Combined engine with various energy storage cycles equipped with 5 stages of vertical type moving blade gravity solar turbines that are driven + accelerated with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific critical material rolling contact drive. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Combined various energy conservation cycle with 6-stage vertical moving blade gravity solar turbine that accelerates liquid metal (2E) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with combustion gas calorie and mass or compressed air calorie and pressure and save + Various all-blade gravitational solar turbines with 7 stages to drive liquid metal with compressed air calorie and mass Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with 8 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with a 9-stage vertical rotor blade gravity solar turbine that accelerates and accelerates specific critical substances with compressed pressure and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engines equipped with 10 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine which provided the vertical type moving blade gravity solar heat turbine which accelerates and accelerates liquid metal (2E) with the pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with two-stage vertical rotor blade gravity solar turbines that accelerate with a pressure divided and stored in compressed air heat and mass + liquid metal accelerated with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar thermal turbines that are driven by the pressure stored separately and accelerated by specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with four-stage vertical rotor blade gravity solar turbines that accelerate and accelerate the acceleration of specific critical materials with pressures stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescence engine equipped with 5 stages of vertical rotor blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescence engine equipped with 6-stage vertical rotor blade gravity solar turbine that accelerates and accelerates the liquid metal (2E) with the pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with a 7-stage vertical all blade gravity solar turbine that accelerates and accelerates liquid metal with compressed air calorie and mass with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with 8 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with a 9-stage vertical rotor blade gravity solar turbine that accelerates and accelerates specific critical substances with compressed pressure and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engines equipped with 10 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine which provided the vertical type moving blade gravity solar heat turbine which accelerates and accelerates liquid metal (2E) with the pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with two-stage vertical rotor blade gravity solar turbines that accelerate with a pressure divided and stored in compressed air heat and mass + liquid metal accelerated with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by specific material acceleration Various energy storage cycle coalescing engine in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material Various energy conservation cycle coalescing engine with 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine Various energy conservation cycle coalescing engine with 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engine with 6 solar heat turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engines with 7-stage rotor blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar turbines that are driven + accelerated with the pressure divided and stored into combustion gas calorie and mass or compressed air calorie and mass to be used. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Various energy conservation cycle coalescing engines equipped with 9-stage vertical all blade gravitational solar heat turbine that accelerates specific critical substances. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Combined engine with various energy storage cycles equipped with 10 types of vertical rotor blade gravity solar turbines that use + acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific critical material rolling contact drive. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Combined with various energy conservation cycle equipped with a vertical all blade gravity solar turbine that drives liquid metal (2E) in one stage organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with combustion gas calorie and mass or compressed air calorie and pressure and storage + Various types of energy provided in two stages of vertical rotor blade gravity solar turbine that accelerates liquid metal with compressed air calorie and mass Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Using a rising sphere riser (2F) to save and store liquid metal + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by specific material acceleration Various energy storage cycle coalescing engine in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material Various energy conservation cycle coalescing engine with 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine Various energy conservation cycle coalescing engine with 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engine with 6 solar heat turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engines with 7-stage rotor blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Using a rising sphere riser (2F) to save and store liquid metal + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by specific material acceleration Various energy storage cycle coalescing engine in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material Various energy conservation cycle coalescing engines with 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine Various energy conservation cycle coalescing engines with 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines with solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engine with two stages of moving blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by specific material acceleration in 3 stages Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific staged all blade gravity solar thermal turbine with acceleration driven to 4 stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar turbine driven by specific material rolling contact in 5 stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + combustion gas calorie and mass or compressed air calorie and pressure is divided and stored in pressure + liquid metal (2E) is accelerated to drive a vertical all blade gravity solar thermal turbine 6 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + acceleration with combustion gas calorie and mass or compressed air calorie and pressure divided storage + swing type full rotor blade gravity solar heat that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with 7 stages of turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending and storing liquid metal + Combustion gas calorie and mass or compressed air calorie and pressure are stored separately and accelerated + Specific critical material acceleration drive vertical type full-blade gravity solar thermal turbine is installed in 8 stages Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by specific material acceleration is provided in 9 stages Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + combustion gas calorie and mass or compressed air calorie and pressure is stored separately and acceleration + specific critical material acceleration drive vertical type full blade gravity solar thermal turbine is installed in 10 stages Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar heat turbine driven by specific material acceleration provided in one stage Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical wing gravity solar thermal turbine driven by specific material acceleration in two stages Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending and storage + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Specific staged all-blade gravitational solar turbine in three stages to accelerate acceleration Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific staged all blade gravity solar thermal turbine with acceleration driven to 4 stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending and storage + Accelerate with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific critical substances in 5 stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending and storage + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Specific stage 6-stage full-rotor gravity solar thermal turbine driven by acceleration Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + accelerating by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific major material acceleration driven vertical type rotor blade gravity solar turbine in 7 stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific major material rolling contact driven vertical all blade gravity solar thermal turbine in 8 stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific heavy material rolling contact driven vertical all blade gravity solar turbine in 9 stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + accelerating by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific heavy material rolling contact driven vertical all blade gravity solar turbine in 10 stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific large material rolling contact driven vertical all blade gravity solar turbine in one stage Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Specific large material rolling contact driven vertical full blade gravity solar turbine in two stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + combustion gas calorie and mass or compressed air calorie and pressure is divided and stored in pressure + liquid metal (2E) is accelerated to drive a vertical all blade gravity solar turbine 3 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use ascending storage of liquid metal + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine that accelerates liquid metal (2E) 4 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + combustion gas calorie and mass or compressed air calorie and pressure is stored separately and accelerated + liquid metal (2E) is driven by a vertical all blade gravity solar thermal turbine 5 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + combustion gas calorie and mass or compressed air calorie and pressure is divided and stored in pressure + liquid metal (2E) is accelerated to drive a vertical all blade gravity solar thermal turbine 6 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) The liquid metal is used for ascending storage + combustion gas calorie and mass or compressed air calorie and pressure is accelerated and stored in a vertical all blade gravity solar thermal turbine that accelerates and drives the liquid metal (2E) 7 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + acceleration with combustion gas calorie and mass or compressed air calorie and pressure divided storage + swing type full rotor blade gravity solar heat that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine with 8 stages of turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + acceleration with combustion gas calorie and mass or compressed air calorie and pressure divided storage + swing type full rotor blade gravity solar heat that accelerates liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engine with 9 stages of turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + acceleration with combustion gas calorie and mass or compressed air calorie and pressure divided storage + swing type full rotor blade gravity solar heat that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine with 10 stages of turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + acceleration with combustion gas calorie and mass or compressed air calorie and pressure divided storage + swing type full rotor blade gravity solar heat that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engines with one turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + acceleration with combustion gas calorie and mass or compressed air calorie and pressure divided storage + swing type full rotor blade gravity solar heat that accelerates liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engine with two stages of turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Combined with various energy conservation cycle with 3 types of vertical rotor blade gravity solar turbines organ. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Combined with various energy conservation cycle with 4 types of vertical rotor blade gravity solar turbines organ. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Combined with various energy conservation cycle equipped with vertical type moving blade gravity solar turbine in 5 stages organ. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + Acceleration with pressure divided and stored into combustion gas calorie and mass or compressed air calorie and mass + Combined with various energy conservation cycle equipped with 6-stage full blade gravity solar thermal turbine organ. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Combined with various energy conservation cycle with 7-stage full rotor blade gravity solar turbine organ. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Various energy storage cycle coalescing engines equipped with 8 types of vertical moving blade gravity solar heat turbines that are driven by acceleration + specific critical material acceleration driving + pressure to be stored and used + combustion gas calorie and mass or compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation + Combustion gas heat quantity and mass or compressed air heat quantity and mass accelerating with pressure divided + Preservation of specific critical materials Accelerating drive of vertical type all blade gravity solar heat turbine with 9 stages . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation + Combustion gas heat quantity and mass or compressed air heat quantity and mass accelerating by pressure and storage + specific critical material rolling contact driven vertical all blade gravitational solar heat turbine equipped with 10 stages, various energy storage cycle coalescence engine . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation and use + Acceleration by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Various energy conservation cycles with a vertical all blade gravity solar turbine that drives liquid metal (2E) in one stage Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation use + Acceleration with combustion gas calorie and mass or compressed air calorie and mass storage + Various types of vertical rotor blade gravity solar turbines that drive liquid metal with compressed air calorie and mass in two stages Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines that are driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with four-stage vertical rotor blade gravity solar turbines that accelerate and drive specific critical materials with the pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine equipped with 5 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air heat quantity and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, various energy storage cycle coalescence engines provided with six stages of vertical rotor blade gravity solar turbines that accelerate and drive liquid metal (2E) with pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with a 7-stage vertical rotor blade gravity solar turbine that accelerates with pressure compressed and stored in compressed air calorie and mass + liquid metal is accelerated with compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar heat turbines driven by acceleration and specific material acceleration by dividing and storing pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with a 9-stage vertical rotor blade gravity solar turbine that accelerates and accelerates the acceleration of specific critical materials using divided and stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with 10 stages of vertical rotor blade gravity solar heat turbines driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle coalescing engines with a vertical all-blade gravity solar heat turbine that accelerates and accelerates liquid metal (2E) with pressure that is stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with a two-stage vertical rotor blade gravity solar turbine that accelerates by dividing and storing pressure + liquid metal is accelerated by compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines that are driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with four-stage vertical rotor blade gravity solar turbines that accelerate and drive specific critical materials with the pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine equipped with 5 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air heat quantity and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, various energy storage cycle coalescence engines provided with six stages of vertical rotor blade gravity solar turbines that accelerate and drive liquid metal (2E) with pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with a 7-stage vertical rotor blade gravity solar turbine that accelerates with pressure compressed and stored in compressed air calorie and mass + liquid metal is accelerated with compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by specific material acceleration Various energy storage cycle coalescing engine in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material Various energy conservation cycle coalescing engines with 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine Various energy conservation cycle coalescing engines with 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines with solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engine with two stages of moving blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Various energy storage cycle coalescing engines equipped with a vertical all rotor blade gravity solar turbine that is driven + accelerated with the pressure divided and stored into combustion gas calorie and mass or compressed air calorie and mass to be used and driven by specific critical material acceleration. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerating by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Various energy conservation cycle coalescence engine equipped with 4 types of vertical rotor blade gravity solar turbines driven by acceleration of specific critical substances. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Combined engine with various energy storage cycles equipped with 5 stages of vertical type moving blade gravity solar turbines that are driven + accelerated with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific critical material rolling contact drive. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Combined various energy conservation cycle with 6-stage vertical moving blade gravity solar turbine that accelerates liquid metal (2E) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with combustion gas calorie and mass or compressed air calorie and pressure and save + Various all-blade gravitational solar turbines with 7 stages to drive liquid metal with compressed air calorie and mass Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with 8 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with a 9-stage vertical rotor blade gravity solar turbine that accelerates and accelerates specific critical substances with compressed pressure and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engines equipped with 10 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine which provided the vertical type moving blade gravity solar heat turbine which accelerates and accelerates liquid metal (2E) with the pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with two-stage vertical rotor blade gravity solar turbines that accelerate with a pressure divided and stored in compressed air heat and mass + liquid metal accelerated with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar thermal turbines that are driven by the pressure stored separately and accelerated by specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with four-stage vertical rotor blade gravity solar turbines that accelerate and accelerate the acceleration of specific critical materials with pressures stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescence engine equipped with 5 stages of vertical rotor blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescence engine equipped with 6-stage vertical rotor blade gravity solar turbine that accelerates and accelerates the liquid metal (2E) with the pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with a 7-stage vertical all blade gravity solar turbine that accelerates and accelerates liquid metal with compressed air calorie and mass with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with 8 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with a 9-stage vertical rotor blade gravity solar turbine that accelerates and accelerates specific critical substances with compressed pressure and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engines equipped with 10 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine which provided the vertical type moving blade gravity solar heat turbine which accelerates and accelerates liquid metal (2E) with the pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with two-stage vertical rotor blade gravity solar turbines that accelerate with a pressure divided and stored in compressed air heat and mass + liquid metal accelerated with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by specific material acceleration Various energy storage cycle coalescing engine in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material Various energy conservation cycle coalescing engine with 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine Various energy conservation cycle coalescing engine with 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engine with 6 solar heat turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engines with 7-stage rotor blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar turbines that are driven + accelerated with the pressure divided and stored into combustion gas calorie and mass or compressed air calorie and mass to be used. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Various energy conservation cycle coalescing engines equipped with 9-stage vertical all blade gravitational solar heat turbine that accelerates specific critical substances. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Combined engine with various energy storage cycles equipped with 10 types of vertical rotor blade gravity solar turbines that use + acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific critical material rolling contact drive. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Combined with various energy conservation cycle equipped with a vertical all blade gravity solar turbine that drives liquid metal (2E) in one stage organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with combustion gas calorie and mass or compressed air calorie and pressure and storage + Various types of energy provided in two stages of vertical rotor blade gravity solar turbine that accelerates liquid metal with compressed air calorie and mass Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines that are driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with four-stage vertical rotor blade gravity solar turbines that accelerate and drive specific critical materials with the pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine equipped with 5 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air heat quantity and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, various energy storage cycle coalescence engines provided with six stages of vertical rotor blade gravity solar turbines that accelerate and drive liquid metal (2E) with pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with a 7-stage vertical rotor blade gravity solar turbine that accelerates with pressure compressed and stored in compressed air calorie and mass + liquid metal is accelerated with compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar heat turbines driven by acceleration and specific material acceleration by dividing and storing pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with a 9-stage vertical rotor blade gravity solar turbine that accelerates and accelerates the acceleration of specific critical materials using divided and stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with 10 stages of vertical rotor blade gravity solar heat turbines driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle coalescing engines with a vertical all-blade gravity solar heat turbine that accelerates and accelerates liquid metal (2E) with pressure that is stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with a two-stage vertical rotor blade gravity solar turbine that accelerates by dividing and storing pressure + liquid metal is accelerated by compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines that are driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with four-stage vertical rotor blade gravity solar turbines that accelerate and drive specific critical materials with the pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine equipped with 5 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air heat quantity and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, various energy storage cycle coalescence engines provided with six stages of vertical rotor blade gravity solar turbines that accelerate and drive liquid metal (2E) with pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with a 7-stage vertical rotor blade gravity solar turbine that accelerates with pressure compressed and stored in compressed air calorie and mass + liquid metal is accelerated with compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by specific material acceleration Various energy storage cycle coalescing engine in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material Various energy conservation cycle coalescing engines with 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine Various energy conservation cycle coalescing engines with 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines with solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engine with two stages of moving blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Various energy storage cycle coalescing engines equipped with a vertical all rotor blade gravity solar turbine that is driven + accelerated with the pressure divided and stored into combustion gas calorie and mass or compressed air calorie and mass to be used and driven by specific critical material acceleration. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerating by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Various energy conservation cycle coalescence engine equipped with 4 types of vertical rotor blade gravity solar turbines driven by acceleration of specific critical substances. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Combined engine with various energy storage cycles equipped with 5 stages of vertical type moving blade gravity solar turbines that are driven + accelerated with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific critical material rolling contact drive. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Combined various energy conservation cycle with 6-stage vertical moving blade gravity solar turbine that accelerates liquid metal (2E) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with combustion gas calorie and mass or compressed air calorie and pressure and save + Various all-blade gravitational solar turbines with 7 stages to drive liquid metal with compressed air calorie and mass Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with 8 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with a 9-stage vertical rotor blade gravity solar turbine that accelerates and accelerates specific critical substances with compressed pressure and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engines equipped with 10 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine which provided the vertical type moving blade gravity solar heat turbine which accelerates and accelerates liquid metal (2E) with the pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with two-stage vertical rotor blade gravity solar turbines that accelerate with a pressure divided and stored in compressed air heat and mass + liquid metal accelerated with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar thermal turbines that are driven by the pressure stored separately and accelerated by specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with four-stage vertical rotor blade gravity solar turbines that accelerate and accelerate the acceleration of specific critical materials with pressures stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescence engine equipped with 5 stages of vertical rotor blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescence engine equipped with 6-stage vertical rotor blade gravity solar turbine that accelerates and accelerates the liquid metal (2E) with the pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with a 7-stage vertical all blade gravity solar turbine that accelerates and accelerates liquid metal with compressed air calorie and mass with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with 8 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with a 9-stage vertical rotor blade gravity solar turbine that accelerates and accelerates specific critical substances with compressed pressure and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engines equipped with 10 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine which provided the vertical type moving blade gravity solar heat turbine which accelerates and accelerates liquid metal (2E) with the pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with two-stage vertical rotor blade gravity solar turbines that accelerate with a pressure divided and stored in compressed air heat and mass + liquid metal accelerated with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by specific material acceleration Various energy storage cycle coalescing engine in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material Various energy conservation cycle coalescing engine with 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine Various energy conservation cycle coalescing engine with 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engine with 6 solar heat turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engines with 7-stage rotor blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar turbines that are driven + accelerated with the pressure divided and stored into combustion gas calorie and mass or compressed air calorie and mass to be used. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Various energy conservation cycle coalescing engines equipped with 9-stage vertical all blade gravitational solar heat turbine that accelerates specific critical substances. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Combined engine with various energy storage cycles equipped with 10 types of vertical rotor blade gravity solar turbines that use + acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific critical material rolling contact drive. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Combined with various energy conservation cycle equipped with a vertical all blade gravity solar turbine that drives liquid metal (2E) in one stage organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with combustion gas calorie and mass or compressed air calorie and pressure and storage + Various types of energy provided in two stages of vertical rotor blade gravity solar turbine that accelerates liquid metal with compressed air calorie and mass Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines that are driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with four-stage vertical rotor blade gravity solar turbines that accelerate and drive specific critical materials with the pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine equipped with 5 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air heat quantity and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, various energy storage cycle coalescence engines provided with six stages of vertical rotor blade gravity solar turbines that accelerate and drive liquid metal (2E) with pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with a 7-stage vertical rotor blade gravity solar turbine that accelerates with pressure compressed and stored in compressed air calorie and mass + liquid metal is accelerated with compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar heat turbines driven by acceleration and specific material acceleration by dividing and storing pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with a 9-stage vertical rotor blade gravity solar turbine that accelerates and accelerates the acceleration of specific critical materials using divided and stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with 10 stages of vertical rotor blade gravity solar heat turbines driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle coalescing engines with a vertical all-blade gravity solar heat turbine that accelerates and accelerates liquid metal (2E) with pressure that is stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with a two-stage vertical rotor blade gravity solar turbine that accelerates by dividing and storing pressure + liquid metal is accelerated by compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines that are driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with four-stage vertical rotor blade gravity solar turbines that accelerate and drive specific critical materials with the pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine equipped with 5 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air heat quantity and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, various energy storage cycle coalescence engines provided with six stages of vertical rotor blade gravity solar turbines that accelerate and drive liquid metal (2E) with pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with a 7-stage vertical rotor blade gravity solar turbine that accelerates with pressure compressed and stored in compressed air calorie and mass + liquid metal is accelerated with compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by specific material acceleration Various energy storage cycle coalescing engine in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material Various energy conservation cycle coalescing engines with 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine Various energy conservation cycle coalescing engines with 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines with solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engine with two stages of moving blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Various energy storage cycle coalescing engines equipped with a vertical all rotor blade gravity solar turbine that is driven + accelerated with the pressure divided and stored into combustion gas calorie and mass or compressed air calorie and mass to be used and driven by specific critical material acceleration. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerating by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Various energy conservation cycle coalescence engine equipped with 4 types of vertical rotor blade gravity solar turbines driven by acceleration of specific critical substances. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Combined engine with various energy storage cycles equipped with 5 stages of vertical type moving blade gravity solar turbines that are driven + accelerated with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific critical material rolling contact drive. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Combined various energy conservation cycle with 6-stage vertical moving blade gravity solar turbine that accelerates liquid metal (2E) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with combustion gas calorie and mass or compressed air calorie and pressure and save + Various all-blade gravitational solar turbines with 7 stages to drive liquid metal with compressed air calorie and mass Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with 8 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with a 9-stage vertical rotor blade gravity solar turbine that accelerates and accelerates specific critical substances with compressed pressure and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engines equipped with 10 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine which provided the vertical type moving blade gravity solar heat turbine which accelerates and accelerates liquid metal (2E) with the pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with two-stage vertical rotor blade gravity solar turbines that accelerate with a pressure divided and stored in compressed air heat and mass + liquid metal accelerated with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar thermal turbines that are driven by the pressure stored separately and accelerated by specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with four-stage vertical rotor blade gravity solar turbines that accelerate and accelerate the acceleration of specific critical materials with pressures stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescence engine equipped with 5 stages of vertical rotor blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescence engine equipped with 6-stage vertical rotor blade gravity solar turbine that accelerates and accelerates the liquid metal (2E) with the pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with a 7-stage vertical all blade gravity solar turbine that accelerates and accelerates liquid metal with compressed air calorie and mass with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with 8 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with a 9-stage vertical rotor blade gravity solar turbine that accelerates and accelerates specific critical substances with compressed pressure and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engines equipped with 10 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine which provided the vertical type moving blade gravity solar heat turbine which accelerates and accelerates liquid metal (2E) with the pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with two-stage vertical rotor blade gravity solar turbines that accelerate with a pressure divided and stored in compressed air heat and mass + liquid metal accelerated with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by specific material acceleration Various energy storage cycle coalescing engine in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material Various energy conservation cycle coalescing engine with 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine Various energy conservation cycle coalescing engine with 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engine with 6 solar heat turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engines with 7-stage rotor blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar turbines that are driven + accelerated with the pressure divided and stored into combustion gas calorie and mass or compressed air calorie and mass to be used. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Various energy conservation cycle coalescing engines equipped with 9-stage vertical all blade gravitational solar heat turbine that accelerates specific critical substances. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Combined engine with various energy storage cycles equipped with 10 types of vertical rotor blade gravity solar turbines that use + acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific critical material rolling contact drive. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Combined with various energy conservation cycle equipped with a vertical all blade gravity solar turbine that drives liquid metal (2E) in one stage organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with combustion gas calorie and mass or compressed air calorie and pressure and storage + Various types of energy provided in two stages of vertical rotor blade gravity solar turbine that accelerates liquid metal with compressed air calorie and mass Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines that are driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with four-stage vertical rotor blade gravity solar turbines that accelerate and drive specific critical materials with the pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine equipped with 5 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air heat quantity and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, various energy storage cycle coalescence engines provided with six stages of vertical rotor blade gravity solar turbines that accelerate and drive liquid metal (2E) with pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with a 7-stage vertical rotor blade gravity solar turbine that accelerates with pressure compressed and stored in compressed air calorie and mass + liquid metal is accelerated with compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar heat turbines driven by acceleration and specific material acceleration by dividing and storing pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with a 9-stage vertical rotor blade gravity solar turbine that accelerates and accelerates the acceleration of specific critical materials using divided and stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with 10 stages of vertical rotor blade gravity solar heat turbines driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle coalescing engines with a vertical all-blade gravity solar heat turbine that accelerates and accelerates liquid metal (2E) with pressure that is stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with a two-stage vertical rotor blade gravity solar turbine that accelerates by dividing and storing pressure + liquid metal is accelerated by compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines that are driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with four-stage vertical rotor blade gravity solar turbines that accelerate and drive specific critical materials with the pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine equipped with 5 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air heat quantity and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, various energy storage cycle coalescence engines provided with six stages of vertical rotor blade gravity solar turbines that accelerate and drive liquid metal (2E) with pressure divided and stored in compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with a 7-stage vertical rotor blade gravity solar turbine that accelerates with pressure compressed and stored in compressed air calorie and mass + liquid metal is accelerated with compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by specific material acceleration Various energy storage cycle coalescing engine in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material Various energy conservation cycle coalescing engines with 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine Various energy conservation cycle coalescing engines with 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines with solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engine with two stages of moving blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Various energy storage cycle coalescing engines equipped with a vertical all rotor blade gravity solar turbine that is driven + accelerated with the pressure divided and stored into combustion gas calorie and mass or compressed air calorie and mass to be used and driven by specific critical material acceleration. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerating by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Various energy conservation cycle coalescence engine equipped with 4 types of vertical rotor blade gravity solar turbines driven by acceleration of specific critical substances. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Combined engine with various energy storage cycles equipped with 5 stages of vertical type moving blade gravity solar turbines that are driven + accelerated with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific critical material rolling contact drive. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Combined various energy conservation cycle with 6-stage vertical moving blade gravity solar turbine that accelerates liquid metal (2E) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with combustion gas calorie and mass or compressed air calorie and pressure and save + Various all-blade gravitational solar turbines with 7 stages to drive liquid metal with compressed air calorie and mass Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with 8 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with a 9-stage vertical rotor blade gravity solar turbine that accelerates and accelerates specific critical substances with compressed pressure and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engines equipped with 10 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine which provided the vertical type moving blade gravity solar heat turbine which accelerates and accelerates liquid metal (2E) with the pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with two-stage vertical rotor blade gravity solar turbines that accelerate with a pressure divided and stored in compressed air heat and mass + liquid metal accelerated with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar thermal turbines that are driven by the pressure stored separately and accelerated by specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with four-stage vertical rotor blade gravity solar turbines that accelerate and accelerate the acceleration of specific critical materials with pressures stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescence engine equipped with 5 stages of vertical rotor blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescence engine equipped with 6-stage vertical rotor blade gravity solar turbine that accelerates and accelerates the liquid metal (2E) with the pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with a 7-stage vertical all blade gravity solar turbine that accelerates and accelerates liquid metal with compressed air calorie and mass with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescence engines equipped with 8 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material acceleration driven by pressure divided and stored in heat quantity and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with a 9-stage vertical rotor blade gravity solar turbine that accelerates and accelerates specific critical substances with compressed pressure and mass of compressed air. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engines equipped with 10 stages of vertical type moving blade gravity solar turbines driven by acceleration + specific material rolling contact with pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various energy storage cycle coalescence engine which provided the vertical type moving blade gravity solar heat turbine which accelerates and accelerates liquid metal (2E) with the pressure divided and stored in compressed air calorie and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various energy storage cycle coalescing engines equipped with two-stage vertical rotor blade gravity solar turbines that accelerate with a pressure divided and stored in compressed air heat and mass + liquid metal accelerated with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + Accelerate by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by specific material acceleration Various energy storage cycle coalescing engine in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material Various energy conservation cycle coalescing engine with 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine Various energy conservation cycle coalescing engine with 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engine with 6 solar heat turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engines with 7-stage rotor blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar turbines that are driven + accelerated with the pressure divided and stored into combustion gas calorie and mass or compressed air calorie and mass to be used. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Various energy conservation cycle coalescing engines equipped with 9-stage vertical all blade gravitational solar heat turbine that accelerates specific critical substances. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Combined engine with various energy storage cycles equipped with 10 types of vertical rotor blade gravity solar turbines that use + acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + specific critical material rolling contact drive. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Combined with various energy conservation cycle equipped with a vertical all blade gravity solar turbine that drives liquid metal (2E) in one stage organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with combustion gas calorie and mass or compressed air calorie and pressure and storage + Various types of energy provided in two stages of vertical rotor blade gravity solar turbine that accelerates liquid metal with compressed air calorie and mass Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+燃料費僅少CO2排気僅少で回転出力噴射推進出力増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Fuel cost is small CO2 exhaust is small and rotational output injection propulsion power is increased + Liquid metal is lifted and stored with an increase ball lift device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity Combined with various energy storage cycles in which a vertical type moving blade gravity solar turbine and heat pump driven by acceleration + specific critical material acceleration drive are provided in three stages together with thrust bearings, bearings and turbine outer casing (77a) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+燃料費僅少CO2排気僅少で回転出力噴射推進出力増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Fuel cost is small CO2 exhaust is small and rotational output injection propulsion power is increased + Liquid metal is lifted and stored with an increase ball lift device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity Accelerating with pressures divided and stored in mass + vertical-type full-blade gravitational solar heat turbine and heat pump driven by acceleration of specific critical materials, with four stages along with thrust bearings, bearings and turbine outer casing (77a) Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+燃料費僅少CO2排気僅少で回転出力噴射推進出力増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Fuel cost is small CO2 exhaust is small and rotational output injection propulsion power is increased + Liquid metal is lifted and stored with an increase ball lift device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity Accelerating with pressure that is divided and stored in mass and a specific type of material rolling contact driven vertical rotor blade gravity solar heat turbine and heat pump with thrust bearings, bearings and turbine outer casing (77a) in 5 stages, various energy storage cycles Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+燃料費僅少CO2排気僅少で回転出力噴射推進出力増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Fuel cost is small CO2 exhaust is small and rotational output injection propulsion power is increased + Liquid metal is lifted and stored with an increase ball lift device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity Accelerating with pressure divided and stored in mass + vertical moving blade gravity solar turbine that accelerates liquid metal (2E) and heat pump with thrust bearing, bearing and turbine outer casing (77a) in 6 stages Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+燃料費僅少CO2排気僅少で回転出力噴射推進出力増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Fuel cost is small CO2 exhaust is small and rotational output injection propulsion power is increased + Liquid metal is lifted and stored with an increase ball lift device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity Accelerating with pressure divided and stored in mass + vertical moving blade gravity solar turbine and heat pump to drive liquid metal with compressed air calorie and mass are installed in 7 stages together with thrust bearing, bearing and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity, increase combustion propulsion output with combustion gas calorie and mass + increase sphere lift device (2F) to save and use liquid metal + combustion gas calorie and mass or compression Acceleration with pressure divided and stored in air calorie and mass + Vertically moving blade gravity solar turbine and heat pump driven by specific critical material acceleration, equipped with thrust bearings, bearings and turbine outer box (77a) in 8 stages to save various energy Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A turbine with alternating rotation direction on the horizontal axis (1h) to accelerate the mercury downward + Heat pump (28a) with a suction air passage length lens 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere riser (2F) to save and use liquid metal + Combustion gas calorie and mass or compression Accelerating with pressure divided and stored in the amount of heat and mass of the air + various types of energy provided by a vertical all-blade gravitational solar turbine and heat pump that accelerates and drives specific critical substances in 9 stages together with thrust bearings, bearings and turbine outer casing (77a) Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere riser (2F) to save and use liquid metal + Combustion gas calorie and mass or compression Various types of energy provided by a vertical all-blade gravitational solar heat turbine and heat pump driven by acceleration + specific material rolling contact with pressure divided and stored in air heat quantity and mass in 10 stages together with thrust bearings, bearings and turbine outer casing (77a) Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere riser (2F) to save and use liquid metal + Combustion gas calorie and mass or compression A vertical full rotor blade gravity solar heat turbine and a heat pump that accelerates and accelerates the liquid metal (2E) with a pressure divided and stored in the amount of air heat and mass are provided in one stage together with a thrust bearing, a bearing, and a turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere riser (2F) to save and use liquid metal + Combustion gas calorie and mass or compression Accelerates by pressure divided and stored in air calorie and mass + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass in two stages with thrust bearings, bearings and turbine outer casing (77a) Various energy conservation cycle coalescence engine established in タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere riser (2F) to save and use liquid metal + Combustion gas calorie and mass or compression Accelerates by pressure divided and stored in air calorie and mass + Vertically moving blade gravity solar turbine and heat pump driven by specific critical material acceleration, with thrust bearings, bearings and turbine outer casing (77a) in three stages to save energy Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere riser (2F) to save and use liquid metal + Combustion gas calorie and mass or compression Accelerating with pressure divided and stored in the amount of heat and mass of the air + various types of energy provided in 4 stages with thrust bearings, bearings, and turbine outer casing (77a), a vertical all blade gravitational solar turbine and heat pump that accelerates specific critical substances. Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere riser (2F) to save and use liquid metal + Combustion gas calorie and mass or compression Accelerated by pressure stored separately in the amount of heat and mass of air + various types of energy provided by a vertical all-blade gravitational solar turbine and heat pump driven by a specific material rolling contact with a thrust bearing, bearing and turbine casing (77a) in five stages Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere riser (2F) to save and use liquid metal + Combustion gas calorie and mass or compression A vertical full-blade gravity solar heat turbine and heat pump for accelerating and driving the liquid metal (2E) with a pressure divided and stored in the amount of air heat and mass are provided in six stages together with a thrust bearing, a bearing and a turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere riser (2F) to save and use liquid metal + Combustion gas calorie and mass or compression Accelerates by pressure divided and stored in air calorie and mass + vertical moving blade gravity solar turbine that heats liquid metal with compressed air calorie and mass and heat pump with thrust bearing, bearing and turbine outer casing (77a) in 7 stages Various energy conservation cycle coalescence engine established in タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Accelerates by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Thrusts vertical rotor blade gravity solar turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescence engines provided in 8 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar turbine and heat pump driven by acceleration of specific material Various energy storage cycle coalescence engines provided in 9 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Specific critical material rolling contact driven vertical rotor blade gravity solar turbine and heat pump Various energy storage cycle coalescence engines provided in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical rotor blade gravity solar turbine and heat that accelerates liquid metal (2E) and heat Various energy storage cycle coalescing engines in which the pump is provided in a single stage together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + acceleration with combustion gas calorie and mass or compressed air calorie and pressure divided storage + swing type full rotor blade gravity solar heat that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engines in which a turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Accelerates by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Thrusts vertical rotor blade gravity solar turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescence engines provided in three stages together with bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Accelerates by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Thrusts vertical rotor blade gravity solar turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescence engines provided in 4 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Accelerates by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Thrusts vertical rotor blade gravity solar turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescence engine provided in 5 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Accelerates by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Thrusts vertical rotor blade gravity solar turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescence engines provided in 6 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Accelerates by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Thrusts vertical rotor blade gravity solar turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar turbine and heat pump driven by acceleration of specific material Various energy storage cycle coalescence engines provided in 8 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar turbine and heat pump driven by acceleration of specific material Various energy storage cycle coalescence engines provided in 9 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar turbine and heat pump driven by acceleration of specific material Various energy storage cycle coalescence engines provided in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar turbine and heat pump driven by acceleration of specific material Various energy storage cycle coalescence engine provided in one stage together with thrust bearing, bearing and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar turbine and heat pump driven by acceleration of specific material Various energy storage cycle coalescence engines provided in two stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Specific critical material rolling contact driven vertical rotor blade gravity solar turbine and heat pump Various energy storage cycle coalescence engines provided in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Specific critical material rolling contact driven vertical rotor blade gravity solar turbine and heat pump Various energy storage cycle coalescence engines provided in four stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Specific critical material rolling contact driven vertical rotor blade gravity solar turbine and heat pump Various energy storage cycle coalescence engines provided in five stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Specific critical material rolling contact driven vertical rotor blade gravity solar turbine and heat pump Various energy storage cycle coalescence engines provided in 6 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Specific critical material rolling contact driven vertical rotor blade gravity solar turbine and heat pump Various energy storage cycle coalescence engines provided in 7 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical rotor blade gravity solar turbine and heat that accelerates liquid metal (2E) and heat Various energy storage cycle coalescing engines with pumps installed in 8 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical rotor blade gravity solar turbine and heat that accelerates liquid metal (2E) and heat Various energy storage cycle coalescing engines with pumps arranged in 9 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical rotor blade gravity solar turbine and heat that accelerates liquid metal (2E) and heat Various energy storage cycle coalescing engines with pumps in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical rotor blade gravity solar turbine and heat that accelerates liquid metal (2E) and heat Various energy storage cycle coalescing engines in which the pump is provided in a single stage together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical rotor blade gravity solar turbine and heat that accelerates liquid metal (2E) and heat Various energy storage cycle coalescing engines in which the pump is provided in two stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + acceleration with combustion gas calorie and mass or compressed air calorie and pressure divided storage + swing type full rotor blade gravity solar heat that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engines in which a turbine and a heat pump are provided in three stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + acceleration with combustion gas calorie and mass or compressed air calorie and pressure divided storage + swing type full rotor blade gravity solar heat that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engines in which a turbine and a heat pump are provided in four stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + acceleration with combustion gas calorie and mass or compressed air calorie and pressure divided storage + swing type full rotor blade gravity solar heat that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engines in which a turbine and a heat pump are provided in five stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + acceleration with combustion gas calorie and mass or compressed air calorie and pressure divided storage + swing type full rotor blade gravity solar heat that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engines in which a turbine and a heat pump are provided in six stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + acceleration with combustion gas calorie and mass or compressed air calorie and pressure divided storage + swing type full rotor blade gravity solar heat that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engines in which a turbine and a heat pump are provided in seven stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + acceleration with combustion gas calorie and mass or compressed air calorie and mass storage + accelerated vertical blade dynamic solar turbine and heat pump with thrust bearings, bearings and turbine outside Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + acceleration with combustion gas calorie and mass or compressed air calorie and mass storage + accelerated vertical blade dynamic solar turbine and heat pump with thrust bearings, bearings and turbine outside Various energy storage cycle coalescence engine provided in 9 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + acceleration with combustion gas calorie and mass or compressed air calorie and mass storage + accelerated vertical blade dynamic solar turbine and heat pump with thrust bearings, bearings and turbine outside Various energy storage cycle coalescence engine provided in 10 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + acceleration with combustion gas calorie and mass or compressed air calorie and mass storage + accelerated vertical blade dynamic solar turbine and heat pump with thrust bearings, bearings and turbine outside Various energy storage cycle coalescence engine provided in one stage together with the box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + acceleration with combustion gas calorie and mass or compressed air calorie and mass storage + accelerated vertical blade dynamic solar turbine and heat pump with thrust bearings, bearings and turbine outside Various energy storage cycle coalescence engine provided in two stages together with the box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation + Acceleration with combustion gas calorie and mass or compressed air calorie and mass storage + Specific critical material acceleration driven vertical full blade gravity solar turbine and heat pump with thrust bearings, bearings and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in three stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation + Acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine and heat pump driven by acceleration of specific critical substances with thrust bearings, bearings and turbine casing Various energy storage cycle coalescence engines provided in four stages together with (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation + Combustion gas heat quantity and mass or compressed air heat quantity and mass accelerating with stored pressure + Specific critical material rolling contact driven vertical full blade gravity solar turbine and heat pump with thrust bearings, bearings and turbine casing (77a) Combined with various energy storage cycle engines provided in five stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation + Combustion gas heat quantity and mass or compressed air heat quantity and mass acceleration Acceleration with pressure stored + Vertically moving blade gravity solar heat turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 6 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation use + Acceleration with combustion gas calorie and mass or compressed air calorie and mass storage + Accelerated driving of liquid metal with compressed air calorie and mass Accelerating vertical rotor blade gravity solar turbine and heat pump with thrust bearing and Various energy storage cycle coalescence engine provided in 7 stages with bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various types of accelerating + specific critical material acceleration driven vertical all blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) in 8 stages with pressure stored in divided quantity of compressed air and mass Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical full-rotor gravity gravity solar turbine and a heat pump that accelerates acceleration with a pressure that is divided and stored in compressed air calorie and mass, and a specific critical substance, and a heat pump are provided in 9 stages together with a thrust bearing, bearing, and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar heat turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are provided in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full-blade gravity solar thermal turbine and heat pump that accelerates and accelerates the liquid metal (2E) with the pressure divided and stored in the compressed air heat quantity and mass, together with the thrust bearing, bearing and turbine outer casing (77a) in one stage Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy storage cycle coalescence engine provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Accelerating the power increase sphere (2E) as a small diameter + Pressure of combustion gas calorie and mass or compressed air calorie and mass Accelerating + specific critical material acceleration driven vertical all blade gravity solar turbine and heat pump with a thrust bearing, bearing and turbine outer casing (77a) in three stages, combined with various energy storage cycle engines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Accelerating the power increase sphere (2E) as a small diameter + Pressure of combustion gas calorie and mass or compressed air calorie and mass Accelerating + specific critical material acceleration type vertical blade gravitational solar thermal turbine and heat pump, combined with thrust bearing, bearing and turbine outer casing (77a) in 4 stages, various energy storage cycle coalescing engines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Accelerating the power increase sphere (2E) as a small diameter + Pressure of combustion gas calorie and mass or compressed air calorie and mass Accelerating + specific material rolling contact driven vertical all blade gravitational solar thermal turbine and heat pump, combined with thrust bearing, bearing and turbine outer casing (77a) in 5 stages, various energy storage cycle coalescing engines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Accelerating the power increase sphere (2E) as a small diameter + Pressure of combustion gas calorie and mass or compressed air calorie and mass Various energy storage cycle coalescing engines in which a vertical all-blade gravity solar turbine and a heat pump that accelerates and accelerates liquid metal (2E) are provided in six stages together with a thrust bearing, a bearing, and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Accelerating the power increase sphere (2E) as a small diameter + Pressure of combustion gas calorie and mass or compressed air calorie and mass Accelerating + liquid type metal driven accelerating drive with heat and mass of compressed air Gravity type full-blade gravity solar turbine and heat pump with thrust bearings, bearings and turbine outer casing (77a) in 7 stages, various energy storage cycle coalescing engines . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+出力増大球(2E)を小径として加速タービン駆動する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar engine + A horizontal turbine (1h) with rotating turbines in alternate rotational directions to drive acceleration of specific critical materials downward + Accelerated turbine drive with a small output increase sphere (2E) + combustion Accelerating with pressure divided and stored in gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity solar thermal turbine and heat pump driven by specific critical material acceleration with thrust bearing, bearing and turbine outer casing (77a) in 8 stages Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+出力増大球(2E)を小径として加速タービン駆動する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar engine + A horizontal turbine (1h) with rotating turbines in alternate rotational directions to drive acceleration of specific critical materials downward + Accelerated turbine drive with a small output increase sphere (2E) + combustion Accelerates by pressure divided into gas calorie and mass or compressed air calorie and mass + specific critical material acceleration driven vertical rotor blade gravity solar heat turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 9 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+出力増大球(2E)を小径として加速タービン駆動する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar engine + A horizontal turbine (1h) with rotating turbines in alternate rotational directions to drive acceleration of specific critical materials downward + Accelerated turbine drive with a small output increase sphere (2E) + combustion Accelerated by gas pressure and mass or compressed air calorie and mass pressure + specific critical material rolling contact driven vertical full blade gravity solar heat turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 10 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+出力増大球(2E)を小径として加速タービン駆動する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar engine + A horizontal turbine (1h) with rotating turbines in alternate rotational directions to drive acceleration of specific critical materials downward + Accelerated turbine drive with a small output increase sphere (2E) + combustion Acceleration with pressure divided and stored in gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity solar heat turbine and heat pump that accelerates liquid metal (2E) and thrust pump, bearing and turbine outer casing (77a) In addition, various energy conservation cycle coalescence engines provided in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+出力増大球(2E)を小径として加速タービン駆動する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbines driven by liquid metal gravity solar engine + A horizontal turbine (1h) with rotating turbines in alternate rotational directions to drive acceleration of specific critical materials downward + Accelerated turbine drive with a small output increase sphere (2E) + combustion Accelerates by gas heat and mass or compressed air heat and mass and saves pressure + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air heat and mass (77a) Combined with various energy storage cycle engines provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + combustion gas calorie and mass or compressed air divided and stored in pressure and pressure + specific critical material acceleration driven vertical full blade gravity solar thermal turbine and Various energy storage cycle coalescing engines with heat pumps installed in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material And various energy storage cycle coalescing engines provided with heat pumps in four stages together with thrust bearings, bearings, and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine And various energy storage cycle coalescing engines provided with heat pumps in five stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines in which a solar heat turbine and a heat pump are provided in six stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engines in which a rotor blade gravity solar turbine and a heat pump are provided in seven stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + special material acceleration driving vertical full blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine outer casing (77a ) Combined with various energy conservation cycle engines in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass + acceleration of specific critical substances accelerating and driving vertical type full-blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + specifically significant material rolling contact driven vertical full blade gravity solar turbine and heat pump with thrust bearings, bearings and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar heat turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing, bearing and outside of turbine Various energy storage cycle coalescence engine provided in one stage together with the box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass storage + accelerated driving of liquid metal with compressed air calorie and mass for vertical moving blade gravity solar turbine and heat pump thrust bearings and bearings And various energy storage cycle coalescence engines provided in two stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various types of accelerating + specific critical material acceleration driven vertical full blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) provided in three stages with pressure stored in divided quantity of heat and mass of compressed air Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical all-blade gravity solar heat turbine and heat pump that accelerates acceleration with specific pressures stored in divided quantity of heat and mass of compressed air, and a heat pump are installed in four stages together with thrust bearings, bearings, and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are installed in five stages together with thrust bearings, bearings and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full rotor blade gravity solar heat turbine and heat pump that accelerates and accelerates the liquid metal (2E) with a pressure that is divided and stored in compressed air calorie and mass in six stages together with thrust bearings, bearings, and turbine outer casing (77a) Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy conservation cycle coalescence engine provided in 7 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines, which are provided with 8 stages of thrust type bearings, bearings, and turbine outer casing (77a), a vertical all-blade gravity solar thermal turbine and heat pump driven by acceleration and specific critical material acceleration with separately stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines that are equipped with 9 stages of thrust type bearings, bearings, and turbine outer casing (77a), which is a vertical all-blade gravitational solar heat turbine and heat pump that accelerates and accelerates specific substances by dividing and storing pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle coalescing engines, which are provided with 10 stages of thrust type bearings, bearings, and turbine outer casing (77a), which are acceleration + specific critical material rolling contact drive driven by a separately stored pressure, and a vertical type moving blade gravity solar turbine and heat pump. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Combined with various energy storage cycles in which a vertical all-blade gravity solar turbine and heat pump that accelerates and accelerates liquid metal (2E) with pressure stored separately are provided in a single stage with a thrust bearing, bearing, and turbine outer box (77a) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Accelerating with pressure stored separately + Accelerating liquid metal with compressed air calorie and mass Accelerating all blade gravity solar turbine and heat pump in two stages with thrust bearing, bearing and turbine outer box (77a) Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various types of accelerating + specific critical material acceleration driven vertical full blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) provided in three stages with pressure stored in divided quantity of heat and mass of compressed air Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical all-blade gravity solar heat turbine and heat pump that accelerates acceleration with specific pressures stored in divided quantity of heat and mass of compressed air, and a heat pump are installed in four stages together with thrust bearings, bearings, and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are installed in five stages together with thrust bearings, bearings and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full rotor blade gravity solar heat turbine and heat pump that accelerates and accelerates the liquid metal (2E) with a pressure that is divided and stored in compressed air calorie and mass in six stages together with thrust bearings, bearings, and turbine outer casing (77a) Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy conservation cycle coalescence engine provided in 7 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + combustion gas calorie and mass or compressed air divided and stored in pressure and pressure + specific critical material acceleration driven vertical full blade gravity solar thermal turbine and Various energy storage cycle coalescing engines with heat pumps installed in 8 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material And various energy storage cycle coalescing engines provided with heat pumps in nine stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine And various energy storage cycle coalescing engines provided with heat pumps in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines in which a solar heat turbine and a heat pump are provided in one stage together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engines in which a moving blade gravity solar turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + special material acceleration driving vertical full blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine outer casing (77a ) Combined with various energy conservation cycle engines in three stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass + acceleration of specific critical substances accelerating and driving vertical type full-blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in four stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + specifically significant material rolling contact driven vertical full blade gravity solar turbine and heat pump with thrust bearings, bearings and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in five stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar heat turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing, bearing and outside of turbine Various energy storage cycle coalescence engine provided in 6 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass storage + accelerated driving of liquid metal with compressed air calorie and mass for vertical moving blade gravity solar turbine and heat pump thrust bearings and bearings And various energy storage cycle coalescence engines provided in 7 stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various types of accelerating + specific critical material acceleration driven vertical all blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) in 8 stages with pressure stored in divided quantity of compressed air and mass Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical full-rotor gravity gravity solar turbine and a heat pump that accelerates acceleration with a pressure that is divided and stored in compressed air calorie and mass, and a specific critical substance, and a heat pump are provided in 9 stages together with a thrust bearing, bearing, and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar heat turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are provided in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full-blade gravity solar thermal turbine and heat pump that accelerates and accelerates the liquid metal (2E) with the pressure divided and stored in the compressed air heat quantity and mass, together with the thrust bearing, bearing and turbine outer casing (77a) in one stage Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy storage cycle coalescence engine provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines that are equipped with a three-stage thruster bearing, bearing, and turbine outer casing (77a) with a vertical type moving blade gravity solar heat turbine and heat pump driven by acceleration and specific material acceleration with split stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines that are equipped with a four-stage thrust type bearing, bearing, and turbine outer casing (77a), which are a vertical all-blade gravitational solar thermal turbine and a heat pump that are accelerated and driven with a pressure that is divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines, which are provided with 5 stages of thrust type bearings, bearings, and turbine outer casing (77a), with a vertical all-blade gravity solar heat turbine and heat pump driven by acceleration + specific material rolling contact with divided and stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Combined with various energy conservation cycles, with a vertical all-blade gravity solar turbine and a heat pump that accelerates and accelerates the liquid metal (2E) by dividing and storing pressure, and six stages with thrust bearings, bearings, and turbine outer casing (77a) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Accelerating with pressure stored separately + Accelerating liquid metal with compressed air calorie and mass Accelerating all blade gravity solar turbine and heat pump in 7 stages with thrust bearing, bearing and turbine outer box (77a) Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various types of accelerating + specific critical material acceleration driven vertical all blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) in 8 stages with pressure stored in divided quantity of compressed air and mass Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical full-rotor gravity gravity solar turbine and a heat pump that accelerates acceleration with a pressure that is divided and stored in compressed air calorie and mass, and a specific critical substance, and a heat pump are provided in 9 stages together with a thrust bearing, bearing, and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar heat turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are provided in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full-blade gravity solar thermal turbine and heat pump that accelerates and accelerates the liquid metal (2E) with the pressure divided and stored in the compressed air heat quantity and mass, together with the thrust bearing, bearing and turbine outer casing (77a) in one stage Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy storage cycle coalescence engine provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + combustion gas calorie and mass or compressed air divided and stored in pressure and pressure + specific critical material acceleration driven vertical full blade gravity solar thermal turbine and Various energy storage cycle coalescing engines with heat pumps installed in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material And various energy storage cycle coalescing engines provided with heat pumps in four stages together with thrust bearings, bearings, and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine And various energy storage cycle coalescing engines provided with heat pumps in five stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines in which a solar heat turbine and a heat pump are provided in six stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engines in which a moving blade gravity solar turbine and a heat pump are provided in seven stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + special material acceleration driving vertical full blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine outer casing (77a ) Combined with various energy conservation cycle engines in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass + acceleration of specific critical substances accelerating and driving vertical type full-blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + specifically significant material rolling contact driven vertical full blade gravity solar turbine and heat pump with thrust bearings, bearings and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar heat turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing, bearing and outside of turbine Various energy storage cycle coalescence engine provided in one stage together with the box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass storage + accelerated driving of liquid metal with compressed air calorie and mass for vertical moving blade gravity solar turbine and heat pump thrust bearings and bearings And various energy storage cycle coalescence engines provided in two stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various types of accelerating + specific critical material acceleration driven vertical full blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) provided in three stages with pressure stored in divided quantity of heat and mass of compressed air Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical all-blade gravity solar heat turbine and heat pump that accelerates acceleration with specific pressures stored in divided quantity of heat and mass of compressed air, and a heat pump are installed in four stages together with thrust bearings, bearings, and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are installed in five stages together with thrust bearings, bearings and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full rotor blade gravity solar heat turbine and heat pump that accelerates and accelerates the liquid metal (2E) with a pressure that is divided and stored in compressed air calorie and mass in six stages together with thrust bearings, bearings, and turbine outer casing (77a) Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy conservation cycle coalescence engine provided in 7 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines, which are provided with 8 stages of thrust type bearings, bearings, and turbine outer casing (77a), a vertical all-blade gravity solar thermal turbine and heat pump driven by acceleration and specific critical material acceleration with separately stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines that are equipped with 9 stages of thrust type bearings, bearings, and turbine outer casing (77a), which is a vertical all-blade gravitational solar heat turbine and heat pump that accelerates and accelerates specific substances by dividing and storing pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle coalescing engines, which are provided with 10 stages of thrust type bearings, bearings, and turbine outer casing (77a), which are acceleration + specific critical material rolling contact drive driven by a separately stored pressure, and a vertical type moving blade gravity solar turbine and heat pump. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Combined with various energy storage cycles in which a vertical all-blade gravity solar turbine and heat pump that accelerates and accelerates liquid metal (2E) with pressure stored separately are provided in a single stage with a thrust bearing, bearing, and turbine outer box (77a) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Accelerating with pressure stored separately + Accelerating liquid metal with compressed air calorie and mass Accelerating all blade gravity solar turbine and heat pump in two stages with thrust bearing, bearing and turbine outer box (77a) Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various types of accelerating + specific critical material acceleration driven vertical full blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) provided in three stages with pressure stored in divided quantity of heat and mass of compressed air Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical all-blade gravity solar heat turbine and heat pump that accelerates acceleration with specific pressures stored in divided quantity of heat and mass of compressed air, and a heat pump are installed in four stages together with thrust bearings, bearings, and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are installed in five stages together with thrust bearings, bearings and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full rotor blade gravity solar heat turbine and heat pump that accelerates and accelerates the liquid metal (2E) with a pressure that is divided and stored in compressed air calorie and mass in six stages together with thrust bearings, bearings, and turbine outer casing (77a) Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy conservation cycle coalescence engine provided in 7 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + combustion gas calorie and mass or compressed air divided and stored in pressure and pressure + specific critical material acceleration driven vertical full blade gravity solar thermal turbine and Various energy storage cycle coalescing engines with heat pumps installed in 8 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material And various energy storage cycle coalescing engines provided with heat pumps in nine stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine And various energy storage cycle coalescing engines provided with heat pumps in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines in which a solar heat turbine and a heat pump are provided in one stage together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engines in which a moving blade gravity solar turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + special material acceleration driving vertical full blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine outer casing (77a ) Combined with various energy conservation cycle engines in three stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass + acceleration of specific critical substances accelerating and driving vertical type full-blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in four stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + specifically significant material rolling contact driven vertical full blade gravity solar turbine and heat pump with thrust bearings, bearings and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in five stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar heat turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing, bearing and outside of turbine Various energy storage cycle coalescence engine provided in 6 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass storage + accelerated driving of liquid metal with compressed air calorie and mass for vertical moving blade gravity solar turbine and heat pump thrust bearings and bearings And various energy storage cycle coalescence engines provided in 7 stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various types of accelerating + specific critical material acceleration driven vertical all blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) in 8 stages with pressure stored in divided quantity of compressed air and mass Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical full-rotor gravity gravity solar turbine and a heat pump that accelerates acceleration with a pressure that is divided and stored in compressed air calorie and mass, and a specific critical substance, and a heat pump are provided in 9 stages together with a thrust bearing, bearing, and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar heat turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are provided in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full-blade gravity solar thermal turbine and heat pump that accelerates and accelerates the liquid metal (2E) with the pressure divided and stored in the compressed air heat quantity and mass, together with the thrust bearing, bearing and turbine outer casing (77a) in one stage Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy storage cycle coalescence engine provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines that are equipped with a three-stage thruster bearing, bearing, and turbine outer casing (77a) with a vertical type moving blade gravity solar heat turbine and heat pump driven by acceleration and specific material acceleration with split stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines that are equipped with a four-stage thrust type bearing, bearing, and turbine outer casing (77a), which are a vertical all-blade gravitational solar thermal turbine and a heat pump that are accelerated and driven with a pressure that is divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines, which are provided with 5 stages of thrust type bearings, bearings, and turbine outer casing (77a), with a vertical all-blade gravity solar heat turbine and heat pump driven by acceleration + specific material rolling contact with divided and stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Combined with various energy conservation cycles, with a vertical all-blade gravity solar turbine and a heat pump that accelerates and accelerates the liquid metal (2E) by dividing and storing pressure, and six stages with thrust bearings, bearings, and turbine outer casing (77a) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Accelerating with pressure stored separately + Accelerating liquid metal with compressed air calorie and mass Accelerating all blade gravity solar turbine and heat pump in 7 stages with thrust bearing, bearing and turbine outer box (77a) Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various types of accelerating + specific critical material acceleration driven vertical all blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) in 8 stages with pressure stored in divided quantity of compressed air and mass Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical full-rotor gravity gravity solar turbine and a heat pump that accelerates acceleration with a pressure that is divided and stored in compressed air calorie and mass, and a specific critical substance, and a heat pump are provided in 9 stages together with a thrust bearing, bearing, and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar heat turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are provided in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full-blade gravity solar thermal turbine and heat pump that accelerates and accelerates the liquid metal (2E) with the pressure divided and stored in the compressed air heat quantity and mass, together with the thrust bearing, bearing and turbine outer casing (77a) in one stage Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy storage cycle coalescence engine provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + combustion gas calorie and mass or compressed air divided and stored in pressure and pressure + specific critical material acceleration driven vertical full blade gravity solar thermal turbine and Various energy storage cycle coalescing engines with heat pumps installed in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material And various energy storage cycle coalescing engines provided with heat pumps in four stages together with thrust bearings, bearings, and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine And various energy storage cycle coalescing engines provided with heat pumps in five stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines in which a solar heat turbine and a heat pump are provided in six stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engines in which a rotor blade gravity solar turbine and a heat pump are provided in seven stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + special material acceleration driving vertical full blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine outer casing (77a ) Combined with various energy conservation cycle engines in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass + acceleration of specific critical substances accelerating and driving vertical type full-blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + specifically significant material rolling contact driven vertical full blade gravity solar turbine and heat pump with thrust bearings, bearings and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar heat turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing, bearing and outside of turbine Various energy storage cycle coalescence engine provided in one stage together with the box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass storage + accelerated driving of liquid metal with compressed air calorie and mass for vertical moving blade gravity solar turbine and heat pump thrust bearings and bearings And various energy storage cycle coalescence engines provided in two stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various types of accelerating + specific critical material acceleration driven vertical full blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) provided in three stages with pressure stored in divided quantity of heat and mass of compressed air Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical all-blade gravity solar heat turbine and heat pump that accelerates acceleration with specific pressures stored in divided quantity of heat and mass of compressed air, and a heat pump are installed in four stages together with thrust bearings, bearings, and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are installed in five stages together with thrust bearings, bearings and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full rotor blade gravity solar heat turbine and heat pump that accelerates and accelerates the liquid metal (2E) with a pressure that is divided and stored in compressed air calorie and mass in six stages together with thrust bearings, bearings, and turbine outer casing (77a) Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy conservation cycle coalescence engine provided in 7 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines, which are provided with 8 stages of thrust type bearings, bearings, and turbine outer casing (77a), a vertical all-blade gravity solar thermal turbine and heat pump driven by acceleration and specific critical material acceleration with separately stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines that are equipped with 9 stages of thrust type bearings, bearings, and turbine outer casing (77a), which is a vertical all-blade gravitational solar heat turbine and heat pump that accelerates and accelerates specific substances by dividing and storing pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle coalescing engines, which are provided with 10 stages of thrust type bearings, bearings, and turbine outer casing (77a), which are acceleration + specific critical material rolling contact drive driven by a separately stored pressure, and a vertical type moving blade gravity solar turbine and heat pump. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Combined with various energy storage cycles in which a vertical all-blade gravity solar turbine and heat pump that accelerates and accelerates liquid metal (2E) with pressure stored separately are provided in a single stage with a thrust bearing, bearing, and turbine outer box (77a) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Accelerating with pressure stored separately + Accelerating liquid metal with compressed air calorie and mass Accelerating all blade gravity solar turbine and heat pump in two stages with thrust bearing, bearing and turbine outer box (77a) Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various types of accelerating + specific critical material acceleration driven vertical full blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) provided in three stages with pressure stored in divided quantity of heat and mass of compressed air Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical all-blade gravity solar heat turbine and heat pump that accelerates acceleration with specific pressures stored in divided quantity of heat and mass of compressed air, and a heat pump are installed in four stages together with thrust bearings, bearings, and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are installed in five stages together with thrust bearings, bearings and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full rotor blade gravity solar heat turbine and heat pump that accelerates and accelerates the liquid metal (2E) with a pressure that is divided and stored in compressed air calorie and mass in six stages together with thrust bearings, bearings, and turbine outer casing (77a) Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy conservation cycle coalescence engine provided in 7 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + combustion gas calorie and mass or compressed air divided and stored in pressure and pressure + specific critical material acceleration driven vertical full blade gravity solar thermal turbine and Various energy storage cycle coalescing engines with heat pumps installed in 8 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material And various energy storage cycle coalescing engines provided with heat pumps in nine stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine And various energy storage cycle coalescing engines provided with heat pumps in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines in which a solar heat turbine and a heat pump are provided in one stage together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engines in which a moving blade gravity solar turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + special material acceleration driving vertical full blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine outer casing (77a ) Combined with various energy conservation cycle engines in three stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass + acceleration of specific critical substances accelerating and driving vertical type full-blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in four stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + specifically significant material rolling contact driven vertical full blade gravity solar turbine and heat pump with thrust bearings, bearings and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in five stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar heat turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing, bearing and outside of turbine Various energy storage cycle coalescence engine provided in 6 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass storage + accelerated driving of liquid metal with compressed air calorie and mass for vertical moving blade gravity solar turbine and heat pump thrust bearings and bearings And various energy storage cycle coalescence engines provided in 7 stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various types of accelerating + specific critical material acceleration driven vertical all blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) in 8 stages with pressure stored in divided quantity of compressed air and mass Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical full-rotor gravity gravity solar turbine and a heat pump that accelerates acceleration with a pressure that is divided and stored in compressed air calorie and mass, and a specific critical substance, and a heat pump are provided in 9 stages together with a thrust bearing, bearing, and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar heat turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are provided in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full-blade gravity solar thermal turbine and heat pump that accelerates and accelerates the liquid metal (2E) with the pressure divided and stored in the compressed air heat quantity and mass, together with the thrust bearing, bearing and turbine outer casing (77a) in one stage Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy storage cycle coalescence engine provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines that are equipped with a three-stage thruster bearing, bearing, and turbine outer casing (77a) with a vertical type moving blade gravity solar heat turbine and heat pump driven by acceleration and specific material acceleration with split stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines that are equipped with a four-stage thrust type bearing, bearing, and turbine outer casing (77a), which are a vertical all-blade gravitational solar thermal turbine and a heat pump that are accelerated and driven with a pressure that is divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines, which are provided with 5 stages of thrust type bearings, bearings, and turbine outer casing (77a), with a vertical all-blade gravity solar heat turbine and heat pump driven by acceleration + specific material rolling contact with divided and stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Combined with various energy conservation cycles, with a vertical all-blade gravity solar turbine and a heat pump that accelerates and accelerates the liquid metal (2E) by dividing and storing pressure, and six stages with thrust bearings, bearings, and turbine outer casing (77a) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Accelerating with pressure stored separately + Accelerating liquid metal with compressed air calorie and mass Accelerating all blade gravity solar turbine and heat pump in 7 stages with thrust bearing, bearing and turbine outer box (77a) Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various types of accelerating + specific critical material acceleration driven vertical all blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) in 8 stages with pressure stored in divided quantity of compressed air and mass Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical full-rotor gravity gravity solar turbine and a heat pump that accelerates acceleration with a pressure that is divided and stored in compressed air calorie and mass, and a specific critical substance, and a heat pump are provided in 9 stages together with a thrust bearing, bearing, and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar heat turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are provided in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full-blade gravity solar thermal turbine and heat pump that accelerates and accelerates the liquid metal (2E) with the pressure divided and stored in the compressed air heat quantity and mass, together with the thrust bearing, bearing and turbine outer casing (77a) in one stage Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy storage cycle coalescence engine provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + combustion gas calorie and mass or compressed air divided and stored in pressure and pressure + specific critical material acceleration driven vertical full blade gravity solar thermal turbine and Various energy storage cycle coalescing engines with heat pumps installed in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material And various energy storage cycle coalescing engines provided with heat pumps in four stages together with thrust bearings, bearings, and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine And various energy storage cycle coalescing engines provided with heat pumps in five stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines in which a solar heat turbine and a heat pump are provided in six stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engines in which a rotor blade gravity solar turbine and a heat pump are provided in seven stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + special material acceleration driving vertical full blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine outer casing (77a ) Combined with various energy conservation cycle engines in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass + acceleration of specific critical substances accelerating and driving vertical type full-blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + specifically significant material rolling contact driven vertical full blade gravity solar turbine and heat pump with thrust bearings, bearings and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar heat turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing, bearing and outside of turbine Various energy storage cycle coalescence engine provided in one stage together with the box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass storage + accelerated driving of liquid metal with compressed air calorie and mass for vertical moving blade gravity solar turbine and heat pump thrust bearings and bearings And various energy storage cycle coalescence engines provided in two stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various types of accelerating + specific critical material acceleration driven vertical full blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) provided in three stages with pressure stored in divided quantity of heat and mass of compressed air Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical all-blade gravity solar heat turbine and heat pump that accelerates acceleration with specific pressures stored in divided quantity of heat and mass of compressed air, and a heat pump are installed in four stages together with thrust bearings, bearings, and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are installed in five stages together with thrust bearings, bearings and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full rotor blade gravity solar heat turbine and heat pump that accelerates and accelerates the liquid metal (2E) with a pressure that is divided and stored in compressed air calorie and mass in six stages together with thrust bearings, bearings, and turbine outer casing (77a) Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy conservation cycle coalescence engine provided in 7 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines, which are provided with 8 stages of thrust type bearings, bearings, and turbine outer casing (77a), a vertical all-blade gravity solar thermal turbine and heat pump driven by acceleration and specific critical material acceleration with separately stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines that are equipped with 9 stages of thrust type bearings, bearings, and turbine outer casing (77a), which is a vertical all-blade gravitational solar heat turbine and heat pump that accelerates and accelerates specific substances by dividing and storing pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle coalescing engines, which are provided with 10 stages of thrust type bearings, bearings, and turbine outer casing (77a), which are acceleration + specific critical material rolling contact drive driven by a separately stored pressure, and a vertical type moving blade gravity solar turbine and heat pump. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Combined with various energy storage cycles in which a vertical all-blade gravity solar turbine and heat pump that accelerates and accelerates liquid metal (2E) with pressure stored separately are provided in a single stage with a thrust bearing, bearing, and turbine outer box (77a) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Accelerating with pressure stored separately + Accelerating liquid metal with compressed air calorie and mass Accelerating all blade gravity solar turbine and heat pump in two stages with thrust bearing, bearing and turbine outer box (77a) Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various types of accelerating + specific critical material acceleration driven vertical full blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) provided in three stages with pressure stored in divided quantity of heat and mass of compressed air Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical all-blade gravity solar heat turbine and heat pump that accelerates acceleration with specific pressures stored in divided quantity of heat and mass of compressed air, and a heat pump are installed in four stages together with thrust bearings, bearings, and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are installed in five stages together with thrust bearings, bearings and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full rotor blade gravity solar heat turbine and heat pump that accelerates and accelerates the liquid metal (2E) with a pressure that is divided and stored in compressed air calorie and mass in six stages together with thrust bearings, bearings, and turbine outer casing (77a) Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy conservation cycle coalescence engine provided in 7 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + combustion gas calorie and mass or compressed air divided and stored in pressure and pressure + specific critical material acceleration driven vertical full blade gravity solar thermal turbine and Various energy storage cycle coalescing engines with heat pumps installed in 8 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material And various energy storage cycle coalescing engines provided with heat pumps in nine stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine And various energy storage cycle coalescing engines provided with heat pumps in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines in which a solar heat turbine and a heat pump are provided in one stage together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engines in which a moving blade gravity solar turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + special material acceleration driving vertical full blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine outer casing (77a ) Combined with various energy conservation cycle engines in three stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass + acceleration of specific critical substances accelerating and driving vertical type full-blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in four stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + specifically significant material rolling contact driven vertical full blade gravity solar turbine and heat pump with thrust bearings, bearings and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in five stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar heat turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing, bearing and outside of turbine Various energy storage cycle coalescence engine provided in 6 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass storage + accelerated driving of liquid metal with compressed air calorie and mass for vertical moving blade gravity solar turbine and heat pump thrust bearings and bearings And various energy storage cycle coalescence engines provided in 7 stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increasing sphere (2E) ++ Using the rising sphere ascending device (2F) for the storage and storage of liquid metal + Combustion gas calorie and mass or compressed air calorie Combined engine with various energy storage cycles with 8 types of thrust type bearings, bearings and turbine outer casing (77a) equipped with a vertical all blade gravity solar turbine and heat pump driven by acceleration + specific material acceleration driven by pressure divided and stored in mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increasing sphere (2E) ++ Using the rising sphere ascending device (2F) for the storage and storage of liquid metal + Combustion gas calorie and mass or compressed air calorie Combined with various energy storage cycles, with a vertical all-rotor gravity gravity solar turbine and a heat pump that are accelerated and driven by the pressure divided and stored in mass, together with thrust bearings, bearings and turbine outer casing (77a) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increasing sphere (2E) ++ Using the rising sphere ascending device (2F) for the storage and storage of liquid metal + Combustion gas calorie and mass or compressed air calorie Combined with various energy storage cycles in which a vertical all blade gravity solar turbine and heat pump driven by acceleration + specific material rolling contact with pressure divided and stored in mass are provided in 10 stages together with thrust bearings, bearings and turbine outer casing (77a) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increasing sphere (2E) ++ Using the rising sphere ascending device (2F) for the storage and storage of liquid metal + Combustion gas calorie and mass or compressed air calorie Various types of energy storage with a vertical all blade gravity solar turbine and heat pump that accelerates and accelerates liquid metal (2E) with pressure divided and stored in mass, along with thrust bearings, bearings, and turbine outer box (77a) Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increasing sphere (2E) ++ Using the rising sphere ascending device (2F) for the storage and storage of liquid metal + Combustion gas calorie and mass or compressed air calorie Accelerating with pressure divided and stored in mass + vertical moving blade gravity solar turbine and heat pump for accelerating liquid metal with compressed air calorie and mass are provided in two stages together with thrust bearings, bearings and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increasing sphere (2E) ++ Using the rising sphere ascending device (2F) for the storage and storage of liquid metal + Combustion gas calorie and mass or compressed air calorie Various energy conservation cycle coalescence engine with vertical type moving blade gravity solar heat turbine and heat pump driven by acceleration + specific material acceleration driven with pressure divided and stored in mass with thrust bearing, bearing and turbine outer box (77a) in 3 stages . タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increasing sphere (2E) ++ Using the rising sphere ascending device (2F) for the storage and storage of liquid metal + Combustion gas calorie and mass or compressed air calorie Combined with various energy storage cycles in which a vertical all-rotor gravity gravity solar turbine and a heat pump, which are accelerated and driven with a pressure divided and stored in mass, are provided in four stages together with a thrust bearing, bearing and turbine outer casing (77a). organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increasing sphere (2E) ++ Using the rising sphere ascending device (2F) for the storage and storage of liquid metal + Combustion gas calorie and mass or compressed air calorie Combined with various energy storage cycles in which a vertical all-blade gravity solar thermal turbine and heat pump driven by acceleration + specific material rolling contact with pressure divided and stored in mass are provided in five stages together with thrust bearings, bearings and turbine outer casing (77a) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increasing sphere (2E) ++ Using the rising sphere ascending device (2F) for the storage and storage of liquid metal + Combustion gas calorie and mass or compressed air calorie Various types of energy storage with 6-stage vertical rotor blade gravity solar turbine and heat pump that accelerate and drive liquid metal (2E) with pressure divided and stored in mass, along with thrust bearing, bearing and turbine outer box (77a) Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increasing sphere (2E) ++ Using the rising sphere ascending device (2F) for the storage and storage of liquid metal + Combustion gas calorie and mass or compressed air calorie Accelerating with pressure divided and stored in mass + vertical moving blade gravity solar turbine that accelerates liquid metal with compressed air calorie and mass, and heat pump are installed in 7 stages together with thrust bearing, bearing and turbine outer box (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Accelerates by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Thrusts vertical rotor blade gravity solar turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescence engines provided in 8 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar turbine and heat pump driven by acceleration of specific material Various energy storage cycle coalescence engines provided in 9 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Specific critical material rolling contact driven vertical rotor blade gravity solar turbine and heat pump Various energy storage cycle coalescence engines provided in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical rotor blade gravity solar turbine and heat that accelerates liquid metal (2E) and heat Various energy storage cycle coalescing engines in which the pump is provided in a single stage together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + acceleration with combustion gas calorie and mass or compressed air calorie and pressure divided storage + swing type full rotor blade gravity solar heat that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engines in which a turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Accelerates by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Thrusts vertical rotor blade gravity solar turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescence engines provided in three stages together with bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Accelerates by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Thrusts vertical rotor blade gravity solar turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescence engines provided in 4 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Accelerates by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Thrusts vertical rotor blade gravity solar turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescence engine provided in 5 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Accelerates by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Thrusts vertical rotor blade gravity solar turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescence engines provided in 6 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Accelerates by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Thrusts vertical rotor blade gravity solar turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar turbine and heat pump driven by acceleration of specific material Various energy storage cycle coalescence engines provided in 8 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar turbine and heat pump driven by acceleration of specific material Various energy storage cycle coalescence engines provided in 9 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar turbine and heat pump driven by acceleration of specific material Various energy storage cycle coalescence engines provided in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar turbine and heat pump driven by acceleration of specific material Various energy storage cycle coalescence engine provided in one stage together with thrust bearing, bearing and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar turbine and heat pump driven by acceleration of specific material Various energy storage cycle coalescence engines provided in two stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Specific critical material rolling contact driven vertical rotor blade gravity solar turbine and heat pump Various energy storage cycle coalescence engines provided in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Specific critical material rolling contact driven vertical rotor blade gravity solar turbine and heat pump Various energy storage cycle coalescence engines provided in four stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Specific critical material rolling contact driven vertical rotor blade gravity solar turbine and heat pump Various energy storage cycle coalescence engines provided in five stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Specific critical material rolling contact driven vertical rotor blade gravity solar turbine and heat pump Various energy storage cycle coalescence engines provided in 6 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Use liquid metal ascending storage + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Specific critical material rolling contact driven vertical rotor blade gravity solar turbine and heat pump Various energy storage cycle coalescence engines provided in 7 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical rotor blade gravity solar turbine and heat that accelerates liquid metal (2E) and heat Various energy storage cycle coalescing engines with pumps installed in 8 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical rotor blade gravity solar turbine and heat that accelerates liquid metal (2E) and heat Various energy storage cycle coalescing engines with pumps arranged in 9 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical rotor blade gravity solar turbine and heat that accelerates liquid metal (2E) and heat Various energy storage cycle coalescing engines with pumps in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical rotor blade gravity solar turbine and heat that accelerates liquid metal (2E) and heat Various energy storage cycle coalescing engines in which the pump is provided in a single stage together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + accelerating with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical rotor blade gravity solar turbine and heat that accelerates liquid metal (2E) and heat Various energy storage cycle coalescing engines in which the pump is provided in two stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + acceleration with combustion gas calorie and mass or compressed air calorie and pressure divided storage + swing type full rotor blade gravity solar heat that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engines in which a turbine and a heat pump are provided in three stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + acceleration with combustion gas calorie and mass or compressed air calorie and pressure divided storage + swing type full rotor blade gravity solar heat that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engines in which a turbine and a heat pump are provided in four stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + acceleration with combustion gas calorie and mass or compressed air calorie and pressure divided storage + swing type full rotor blade gravity solar heat that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engines in which a turbine and a heat pump are provided in five stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + acceleration with combustion gas calorie and mass or compressed air calorie and pressure divided storage + swing type full rotor blade gravity solar heat that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engines in which a turbine and a heat pump are provided in six stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending storage + acceleration with combustion gas calorie and mass or compressed air calorie and pressure divided storage + swing type full rotor blade gravity solar heat that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engines in which a turbine and a heat pump are provided in seven stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + acceleration with combustion gas calorie and mass or compressed air calorie and mass storage + accelerated vertical blade dynamic solar turbine and heat pump with thrust bearings, bearings and turbine outside Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + acceleration with combustion gas calorie and mass or compressed air calorie and mass storage + accelerated vertical blade dynamic solar turbine and heat pump with thrust bearings, bearings and turbine outside Various energy storage cycle coalescence engine provided in 9 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + acceleration with combustion gas calorie and mass or compressed air calorie and mass storage + accelerated vertical blade dynamic solar turbine and heat pump with thrust bearings, bearings and turbine outside Various energy storage cycle coalescence engine provided in 10 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + acceleration with combustion gas calorie and mass or compressed air calorie and mass storage + accelerated vertical blade dynamic solar turbine and heat pump with thrust bearings, bearings and turbine outside Various energy storage cycle coalescence engine provided in one stage together with the box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) ascending and using liquid metal + acceleration with combustion gas calorie and mass or compressed air calorie and mass storage + accelerated vertical blade dynamic solar turbine and heat pump with thrust bearings, bearings and turbine outside Various energy storage cycle coalescence engine provided in two stages together with the box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase ball rise as much as possible with increase ball lift device (2F) + Increase ball lift device (2F) Liquid metal is used for ascending storage + combustion gas calorie and mass or compressed air calorie is divided and stored in pressure and mass is accelerated + specific critical material acceleration driven vertical all blade gravity solar turbine and heat pump with thrust bearings and bearings Various energy storage cycle coalescence engines provided in three stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase ball rise as much as possible with increase ball lift device (2F) + Increase ball lift device (2F) Liquid metal is used for ascending storage + combustion gas calorie and mass or compressed air calorie is divided and stored and pressure is accelerated + specific material is accelerated and driven by a vertical all blade gravity solar turbine and heat pump thrust bearings and bearings And various energy storage cycle coalescence engines provided in four stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase ball rise as much as possible with increase ball lift device (2F) + Increase ball lift device (2F) Ascending and using liquid metal + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Specific critical material rolling contact driven vertical rotor blade gravity solar turbine and heat pump thrust bearing and bearing And various energy storage cycle coalescence engines provided in five stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase ball rise as much as possible with increase ball lift device (2F) + Increase ball lift device (2F) Ascending and using liquid metal + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Thrust-type full rotor blade gravity solar turbine and heat pump driving liquid metal (2E) And various energy storage cycle coalescing engines provided in 6 stages together with bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase ball rise as much as possible with increase ball lift device (2F) + Increase ball lift device (2F) Uplift storage using liquid metal + Acceleration with combustion gas calorie and mass or pressure divided and stored in compressed air calorie and mass + Vertically moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engines provided in 7 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various types of accelerating + specific critical material acceleration driven vertical all blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) in 8 stages with pressure stored in divided quantity of compressed air and mass Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical full-rotor gravity gravity solar turbine and a heat pump that accelerates acceleration with a pressure that is divided and stored in compressed air calorie and mass, and a specific critical substance, and a heat pump are provided in 9 stages together with a thrust bearing, bearing, and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar heat turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are provided in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full-blade gravity solar thermal turbine and heat pump that accelerates and accelerates the liquid metal (2E) with the pressure divided and stored in the compressed air heat quantity and mass, together with the thrust bearing, bearing and turbine outer casing (77a) in one stage Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy storage cycle coalescence engine provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines that are equipped with a three-stage thruster bearing, bearing, and turbine outer casing (77a) with a vertical type moving blade gravity solar heat turbine and heat pump driven by acceleration and specific material acceleration with split stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines that are equipped with a four-stage thrust type bearing, bearing, and turbine outer casing (77a), which are a vertical all-blade gravitational solar thermal turbine and a heat pump that are accelerated and driven with a pressure that is divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines, which are provided with 5 stages of thrust type bearings, bearings, and turbine outer casing (77a), with a vertical all-blade gravity solar heat turbine and heat pump driven by acceleration + specific material rolling contact with divided and stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Combined with various energy conservation cycles, with a vertical all-blade gravity solar turbine and a heat pump that accelerates and accelerates the liquid metal (2E) by dividing and storing pressure, and six stages with thrust bearings, bearings, and turbine outer casing (77a) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Accelerating with pressure stored separately + Accelerating liquid metal with compressed air calorie and mass Accelerating all blade gravity solar turbine and heat pump in 7 stages with thrust bearing, bearing and turbine outer box (77a) Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various types of accelerating + specific critical material acceleration driven vertical all blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) in 8 stages with pressure stored in divided quantity of compressed air and mass Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical full-rotor gravity gravity solar turbine and a heat pump that accelerates acceleration with a pressure that is divided and stored in compressed air calorie and mass, and a specific critical substance, and a heat pump are provided in 9 stages together with a thrust bearing, bearing, and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar heat turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are provided in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full-blade gravity solar thermal turbine and heat pump that accelerates and accelerates the liquid metal (2E) with the pressure divided and stored in the compressed air heat quantity and mass, together with the thrust bearing, bearing and turbine outer casing (77a) in one stage Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy storage cycle coalescence engine provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + combustion gas calorie and mass or compressed air divided and stored in pressure and pressure + specific critical material acceleration driven vertical full blade gravity solar thermal turbine and Various energy storage cycle coalescing engines with heat pumps installed in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material And various energy storage cycle coalescing engines provided with heat pumps in four stages together with thrust bearings, bearings, and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine And various energy storage cycle coalescing engines provided with heat pumps in five stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines in which a solar heat turbine and a heat pump are provided in six stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engines in which a rotor blade gravity solar turbine and a heat pump are provided in seven stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines, which are provided with 8 stages of thrust type bearings, bearings, and turbine outer casing (77a), a vertical all-blade gravity solar thermal turbine and heat pump driven by acceleration and specific critical material acceleration with separately stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines that are equipped with 9 stages of thrust type bearings, bearings, and turbine outer casing (77a), which is a vertical all-blade gravitational solar heat turbine and heat pump that accelerates and accelerates specific substances by dividing and storing pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle coalescing engines, which are provided with 10 stages of thrust type bearings, bearings, and turbine outer casing (77a), which are acceleration + specific critical material rolling contact drive driven by a separately stored pressure, and a vertical type moving blade gravity solar turbine and heat pump. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Combined with various energy storage cycles in which a vertical all-blade gravity solar turbine and heat pump that accelerates and accelerates liquid metal (2E) with pressure stored separately are provided in a single stage with a thrust bearing, bearing, and turbine outer box (77a) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Accelerating with pressure stored separately + Accelerating liquid metal with compressed air calorie and mass Accelerating all blade gravity solar turbine and heat pump in two stages with thrust bearing, bearing and turbine outer box (77a) Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various types of accelerating + specific critical material acceleration driven vertical full blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) provided in three stages with pressure stored in divided quantity of heat and mass of compressed air Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical all-blade gravity solar heat turbine and heat pump that accelerates acceleration with specific pressures stored in divided quantity of heat and mass of compressed air, and a heat pump are installed in four stages together with thrust bearings, bearings, and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are installed in five stages together with thrust bearings, bearings and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full rotor blade gravity solar heat turbine and heat pump that accelerates and accelerates the liquid metal (2E) with a pressure that is divided and stored in compressed air calorie and mass in six stages together with thrust bearings, bearings, and turbine outer casing (77a) Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy conservation cycle coalescence engine provided in 7 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + combustion gas calorie and mass or compressed air divided and stored in pressure and pressure + specific critical material acceleration driven vertical full blade gravity solar thermal turbine and Various energy storage cycle coalescing engines with heat pumps installed in 8 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material And various energy storage cycle coalescing engines provided with heat pumps in nine stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine And various energy storage cycle coalescing engines provided with heat pumps in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines in which a solar heat turbine and a heat pump are provided in one stage together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engines in which a moving blade gravity solar turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + special material acceleration driving vertical full blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine outer casing (77a ) Combined with various energy conservation cycle engines in three stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass + acceleration of specific critical substances accelerating and driving vertical type full-blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in four stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + specifically significant material rolling contact driven vertical full blade gravity solar turbine and heat pump with thrust bearings, bearings and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in five stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar heat turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing, bearing and outside of turbine Various energy storage cycle coalescence engine provided in 6 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass storage + accelerated driving of liquid metal with compressed air calorie and mass for vertical moving blade gravity solar turbine and heat pump thrust bearings and bearings And various energy storage cycle coalescence engines provided in 7 stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various types of accelerating + specific critical material acceleration driven vertical all blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) in 8 stages with pressure stored in divided quantity of compressed air and mass Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical full-rotor gravity gravity solar turbine and a heat pump that accelerates acceleration with a pressure that is divided and stored in compressed air calorie and mass, and a specific critical substance, and a heat pump are provided in 9 stages together with a thrust bearing, bearing, and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar heat turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are provided in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full-blade gravity solar thermal turbine and heat pump that accelerates and accelerates the liquid metal (2E) with the pressure divided and stored in the compressed air heat quantity and mass, together with the thrust bearing, bearing and turbine outer casing (77a) in one stage Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy storage cycle coalescence engine provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines that are equipped with a three-stage thruster bearing, bearing, and turbine outer casing (77a) with a vertical type moving blade gravity solar heat turbine and heat pump driven by acceleration and specific material acceleration with split stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines that are equipped with a four-stage thrust type bearing, bearing, and turbine outer casing (77a), which are a vertical all-blade gravitational solar thermal turbine and a heat pump that are accelerated and driven with a pressure that is divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines, which are provided with 5 stages of thrust type bearings, bearings, and turbine outer casing (77a), with a vertical all-blade gravity solar heat turbine and heat pump driven by acceleration + specific material rolling contact with divided and stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Combined with various energy conservation cycles, with a vertical all-blade gravity solar turbine and a heat pump that accelerates and accelerates the liquid metal (2E) by dividing and storing pressure, and six stages with thrust bearings, bearings, and turbine outer casing (77a) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Accelerating with pressure stored separately + Accelerating liquid metal with compressed air calorie and mass Accelerating all blade gravity solar turbine and heat pump in 7 stages with thrust bearing, bearing and turbine outer box (77a) Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various types of accelerating + specific critical material acceleration driven vertical all blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) in 8 stages with pressure stored in divided quantity of compressed air and mass Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical full-rotor gravity gravity solar turbine and a heat pump that accelerates acceleration with a pressure that is divided and stored in compressed air calorie and mass, and a specific critical substance, and a heat pump are provided in 9 stages together with a thrust bearing, bearing, and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar heat turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are provided in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full-blade gravity solar thermal turbine and heat pump that accelerates and accelerates the liquid metal (2E) with the pressure divided and stored in the compressed air heat quantity and mass, together with the thrust bearing, bearing and turbine outer casing (77a) in one stage Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy storage cycle coalescence engine provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + combustion gas calorie and mass or compressed air divided and stored in pressure and pressure + specific critical material acceleration driven vertical full blade gravity solar thermal turbine and Various energy storage cycle coalescing engines with heat pumps installed in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material And various energy storage cycle coalescing engines provided with heat pumps in four stages together with thrust bearings, bearings, and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine And various energy storage cycle coalescing engines provided with heat pumps in five stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines in which a solar heat turbine and a heat pump are provided in six stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engines in which a rotor blade gravity solar turbine and a heat pump are provided in seven stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + special material acceleration driving vertical full blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine outer casing (77a ) Combined with various energy conservation cycle engines in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass + acceleration of specific critical substances accelerating and driving vertical type full-blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + specifically significant material rolling contact driven vertical full blade gravity solar turbine and heat pump with thrust bearings, bearings and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar heat turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing, bearing and outside of turbine Various energy storage cycle coalescence engine provided in one stage together with the box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass storage + accelerated driving of liquid metal with compressed air calorie and mass for vertical moving blade gravity solar turbine and heat pump thrust bearings and bearings And various energy storage cycle coalescence engines provided in two stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various types of accelerating + specific critical material acceleration driven vertical full blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) provided in three stages with pressure stored in divided quantity of heat and mass of compressed air Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical all-blade gravity solar heat turbine and heat pump that accelerates acceleration with specific pressures stored in divided quantity of heat and mass of compressed air, and a heat pump are installed in four stages together with thrust bearings, bearings, and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are installed in five stages together with thrust bearings, bearings and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full rotor blade gravity solar heat turbine and heat pump that accelerates and accelerates the liquid metal (2E) with a pressure that is divided and stored in compressed air calorie and mass in six stages together with thrust bearings, bearings, and turbine outer casing (77a) Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy conservation cycle coalescence engine provided in 7 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines, which are provided with 8 stages of thrust type bearings, bearings, and turbine outer casing (77a), a vertical all-blade gravity solar thermal turbine and heat pump driven by acceleration and specific critical material acceleration with separately stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines that are equipped with 9 stages of thrust type bearings, bearings, and turbine outer casing (77a), which is a vertical all-blade gravitational solar heat turbine and heat pump that accelerates and accelerates specific substances by dividing and storing pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle coalescing engines, which are provided with 10 stages of thrust type bearings, bearings, and turbine outer casing (77a), which are acceleration + specific critical material rolling contact drive driven by a separately stored pressure, and a vertical type moving blade gravity solar turbine and heat pump. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Combined with various energy storage cycles in which a vertical all-blade gravity solar turbine and heat pump that accelerates and accelerates liquid metal (2E) with pressure stored separately are provided in a single stage with a thrust bearing, bearing, and turbine outer box (77a) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Accelerating with pressure stored separately + Accelerating liquid metal with compressed air calorie and mass Accelerating all blade gravity solar turbine and heat pump in two stages with thrust bearing, bearing and turbine outer box (77a) Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various types of accelerating + specific critical material acceleration driven vertical full blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) provided in three stages with pressure stored in divided quantity of heat and mass of compressed air Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical all-blade gravity solar heat turbine and heat pump that accelerates acceleration with specific pressures stored in divided quantity of heat and mass of compressed air, and a heat pump are installed in four stages together with thrust bearings, bearings, and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are installed in five stages together with thrust bearings, bearings and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full rotor blade gravity solar heat turbine and heat pump that accelerates and accelerates the liquid metal (2E) with a pressure that is divided and stored in compressed air calorie and mass in six stages together with thrust bearings, bearings, and turbine outer casing (77a) Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy conservation cycle coalescence engine provided in 7 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + combustion gas calorie and mass or compressed air divided and stored in pressure and pressure + specific critical material acceleration driven vertical full blade gravity solar thermal turbine and Various energy storage cycle coalescing engines with heat pumps installed in 8 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material And various energy storage cycle coalescing engines provided with heat pumps in nine stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine And various energy storage cycle coalescing engines provided with heat pumps in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines in which a solar heat turbine and a heat pump are provided in one stage together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engines in which a moving blade gravity solar turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + special material acceleration driving vertical full blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine outer casing (77a ) Combined with various energy conservation cycle engines in three stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass + acceleration of specific critical substances accelerating and driving vertical type full-blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in four stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + specifically significant material rolling contact driven vertical full blade gravity solar turbine and heat pump with thrust bearings, bearings and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in five stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar heat turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing, bearing and outside of turbine Various energy storage cycle coalescence engine provided in 6 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass storage + accelerated driving of liquid metal with compressed air calorie and mass for vertical moving blade gravity solar turbine and heat pump thrust bearings and bearings And various energy storage cycle coalescence engines provided in 7 stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various types of accelerating + specific critical material acceleration driven vertical all blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) in 8 stages with pressure stored in divided quantity of compressed air and mass Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical full-rotor gravity gravity solar turbine and a heat pump that accelerates acceleration with a pressure that is divided and stored in compressed air calorie and mass, and a specific critical substance, and a heat pump are provided in 9 stages together with a thrust bearing, bearing, and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar heat turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are provided in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full-blade gravity solar thermal turbine and heat pump that accelerates and accelerates the liquid metal (2E) with the pressure divided and stored in the compressed air heat quantity and mass, together with the thrust bearing, bearing and turbine outer casing (77a) in one stage Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy storage cycle coalescence engine provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines that are equipped with a three-stage thruster bearing, bearing, and turbine outer casing (77a) with a vertical type moving blade gravity solar heat turbine and heat pump driven by acceleration and specific material acceleration with split stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines that are equipped with a four-stage thrust type bearing, bearing, and turbine outer casing (77a), which are a vertical all-blade gravitational solar thermal turbine and a heat pump that are accelerated and driven with a pressure that is divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines, which are provided with 5 stages of thrust type bearings, bearings, and turbine outer casing (77a), with a vertical all-blade gravity solar heat turbine and heat pump driven by acceleration + specific material rolling contact with divided and stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Combined with various energy conservation cycles, with a vertical all-blade gravity solar turbine and a heat pump that accelerates and accelerates the liquid metal (2E) by dividing and storing pressure, and six stages with thrust bearings, bearings, and turbine outer casing (77a) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Accelerating with pressure stored separately + Accelerating liquid metal with compressed air calorie and mass Accelerating all blade gravity solar turbine and heat pump in 7 stages with thrust bearing, bearing and turbine outer box (77a) Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various types of accelerating + specific critical material acceleration driven vertical all blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) in 8 stages with pressure stored in divided quantity of compressed air and mass Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical full-rotor gravity gravity solar turbine and a heat pump that accelerates acceleration with a pressure that is divided and stored in compressed air calorie and mass, and a specific critical substance, and a heat pump are provided in 9 stages together with a thrust bearing, bearing, and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar heat turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are provided in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full-blade gravity solar thermal turbine and heat pump that accelerates and accelerates the liquid metal (2E) with the pressure divided and stored in the compressed air heat quantity and mass, together with the thrust bearing, bearing and turbine outer casing (77a) in one stage Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy storage cycle coalescence engine provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + combustion gas calorie and mass or compressed air divided and stored in pressure and pressure + specific critical material acceleration driven vertical full blade gravity solar thermal turbine and Various energy storage cycle coalescing engines with heat pumps installed in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material And various energy storage cycle coalescing engines provided with heat pumps in four stages together with thrust bearings, bearings, and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine And various energy storage cycle coalescing engines provided with heat pumps in five stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines in which a solar heat turbine and a heat pump are provided in six stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engines in which a rotor blade gravity solar turbine and a heat pump are provided in seven stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + special material acceleration driving vertical full blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine outer casing (77a ) Combined with various energy conservation cycle engines in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass + acceleration of specific critical substances accelerating and driving vertical type full-blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + specifically significant material rolling contact driven vertical full blade gravity solar turbine and heat pump with thrust bearings, bearings and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar heat turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing, bearing and outside of turbine Various energy storage cycle coalescence engine provided in one stage together with the box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass storage + accelerated driving of liquid metal with compressed air calorie and mass for vertical moving blade gravity solar turbine and heat pump thrust bearings and bearings And various energy storage cycle coalescence engines provided in two stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various types of accelerating + specific critical material acceleration driven vertical full blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) provided in three stages with pressure stored in divided quantity of heat and mass of compressed air Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical all-blade gravity solar heat turbine and heat pump that accelerates acceleration with specific pressures stored in divided quantity of heat and mass of compressed air, and a heat pump are installed in four stages together with thrust bearings, bearings, and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are installed in five stages together with thrust bearings, bearings and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full rotor blade gravity solar heat turbine and heat pump that accelerates and accelerates the liquid metal (2E) with a pressure that is divided and stored in compressed air calorie and mass in six stages together with thrust bearings, bearings, and turbine outer casing (77a) Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy conservation cycle coalescence engine provided in 7 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines, which are provided with 8 stages of thrust type bearings, bearings, and turbine outer casing (77a), a vertical all-blade gravity solar thermal turbine and heat pump driven by acceleration and specific critical material acceleration with separately stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines that are equipped with 9 stages of thrust type bearings, bearings, and turbine outer casing (77a), which is a vertical all-blade gravitational solar heat turbine and heat pump that accelerates and accelerates specific substances by dividing and storing pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle coalescing engines, which are provided with 10 stages of thrust type bearings, bearings, and turbine outer casing (77a), which are acceleration + specific critical material rolling contact drive driven by a separately stored pressure, and a vertical type moving blade gravity solar turbine and heat pump. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Combined with various energy storage cycles in which a vertical all-blade gravity solar turbine and heat pump that accelerates and accelerates liquid metal (2E) with pressure stored separately are provided in a single stage with a thrust bearing, bearing, and turbine outer box (77a) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Accelerating with pressure stored separately + Accelerating liquid metal with compressed air calorie and mass Accelerating all blade gravity solar turbine and heat pump in two stages with thrust bearing, bearing and turbine outer box (77a) Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various types of accelerating + specific critical material acceleration driven vertical full blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) provided in three stages with pressure stored in divided quantity of heat and mass of compressed air Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical all-blade gravity solar heat turbine and heat pump that accelerates acceleration with specific pressures stored in divided quantity of heat and mass of compressed air, and a heat pump are installed in four stages together with thrust bearings, bearings, and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are installed in five stages together with thrust bearings, bearings and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full rotor blade gravity solar heat turbine and heat pump that accelerates and accelerates the liquid metal (2E) with a pressure that is divided and stored in compressed air calorie and mass in six stages together with thrust bearings, bearings, and turbine outer casing (77a) Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy conservation cycle coalescence engine provided in 7 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + combustion gas calorie and mass or compressed air divided and stored in pressure and pressure + specific critical material acceleration driven vertical full blade gravity solar thermal turbine and Various energy storage cycle coalescing engines with heat pumps installed in 8 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material And various energy storage cycle coalescing engines provided with heat pumps in nine stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine And various energy storage cycle coalescing engines provided with heat pumps in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines in which a solar heat turbine and a heat pump are provided in one stage together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engines in which a moving blade gravity solar turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + special material acceleration driving vertical full blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine outer casing (77a ) Combined with various energy conservation cycle engines in three stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass + acceleration of specific critical substances accelerating and driving vertical type full-blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in four stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + specifically significant material rolling contact driven vertical full blade gravity solar turbine and heat pump with thrust bearings, bearings and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in five stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar heat turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing, bearing and outside of turbine Various energy storage cycle coalescence engine provided in 6 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass storage + accelerated driving of liquid metal with compressed air calorie and mass for vertical moving blade gravity solar turbine and heat pump thrust bearings and bearings And various energy storage cycle coalescence engines provided in 7 stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various types of accelerating + specific critical material acceleration driven vertical all blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) in 8 stages with pressure stored in divided quantity of compressed air and mass Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical full-rotor gravity gravity solar turbine and a heat pump that accelerates acceleration with a pressure that is divided and stored in compressed air calorie and mass, and a specific critical substance, and a heat pump are provided in 9 stages together with a thrust bearing, bearing, and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar heat turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are provided in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full-blade gravity solar thermal turbine and heat pump that accelerates and accelerates the liquid metal (2E) with the pressure divided and stored in the compressed air heat quantity and mass, together with the thrust bearing, bearing and turbine outer casing (77a) in one stage Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy storage cycle coalescence engine provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines that are equipped with a three-stage thruster bearing, bearing, and turbine outer casing (77a) with a vertical type moving blade gravity solar heat turbine and heat pump driven by acceleration and specific material acceleration with split stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines that are equipped with a four-stage thrust type bearing, bearing, and turbine outer casing (77a), which are a vertical all-blade gravitational solar thermal turbine and a heat pump that are accelerated and driven with a pressure that is divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines, which are provided with 5 stages of thrust type bearings, bearings, and turbine outer casing (77a), with a vertical all-blade gravity solar heat turbine and heat pump driven by acceleration + specific material rolling contact with divided and stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Combined with various energy conservation cycles, with a vertical all-blade gravity solar turbine and a heat pump that accelerates and accelerates the liquid metal (2E) by dividing and storing pressure, and six stages with thrust bearings, bearings, and turbine outer casing (77a) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Accelerating with pressure stored separately + Accelerating liquid metal with compressed air calorie and mass Accelerating all blade gravity solar turbine and heat pump in 7 stages with thrust bearing, bearing and turbine outer box (77a) Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or various types of accelerating + specific critical material acceleration driven vertical all blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) in 8 stages with pressure stored in divided quantity of compressed air and mass Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical full-rotor gravity gravity solar turbine and a heat pump that accelerates acceleration with a pressure that is divided and stored in compressed air calorie and mass, and a specific critical substance, and a heat pump are provided in 9 stages together with a thrust bearing, bearing, and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar heat turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are provided in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full-blade gravity solar thermal turbine and heat pump that accelerates and accelerates the liquid metal (2E) with the pressure divided and stored in the compressed air heat quantity and mass, together with the thrust bearing, bearing and turbine outer casing (77a) in one stage Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy storage cycle coalescence engine provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + combustion gas calorie and mass or compressed air divided and stored in pressure and pressure + specific critical material acceleration driven vertical full blade gravity solar thermal turbine and Various energy storage cycle coalescing engines with heat pumps installed in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material And various energy storage cycle coalescing engines provided with heat pumps in four stages together with thrust bearings, bearings, and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine And various energy storage cycle coalescing engines provided with heat pumps in five stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines in which a solar heat turbine and a heat pump are provided in six stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engines in which a rotor blade gravity solar turbine and a heat pump are provided in seven stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + special material acceleration driving vertical full blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine outer casing (77a ) Combined with various energy conservation cycle engines in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass + acceleration of specific critical substances accelerating and driving vertical type full-blade gravity solar turbine and heat pump with thrust bearing, bearing and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + specifically significant material rolling contact driven vertical full blade gravity solar turbine and heat pump with thrust bearings, bearings and turbine casing ( 77a) Various energy storage cycle coalescence engines provided in 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided into combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar heat turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing, bearing and outside of turbine Various energy storage cycle coalescence engine provided in one stage together with the box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with the pressure of combustion gas calorie and mass or compressed air calorie and mass storage + accelerated driving of liquid metal with compressed air calorie and mass for vertical moving blade gravity solar turbine and heat pump thrust bearings and bearings And various energy storage cycle coalescence engines provided in two stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various types of accelerating + specific critical material acceleration driven vertical full blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) provided in three stages with pressure stored in divided quantity of heat and mass of compressed air Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical all-blade gravity solar heat turbine and heat pump that accelerates acceleration with specific pressures stored in divided quantity of heat and mass of compressed air, and a heat pump are installed in four stages together with thrust bearings, bearings, and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are installed in five stages together with thrust bearings, bearings and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full rotor blade gravity solar heat turbine and heat pump that accelerates and accelerates the liquid metal (2E) with a pressure that is divided and stored in compressed air calorie and mass in six stages together with thrust bearings, bearings, and turbine outer casing (77a) Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy conservation cycle coalescence engine provided in 7 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines, which are provided with 8 stages of thrust type bearings, bearings, and turbine outer casing (77a), a vertical all-blade gravity solar thermal turbine and heat pump driven by acceleration and specific critical material acceleration with separately stored pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines that are equipped with 9 stages of thrust type bearings, bearings, and turbine outer casing (77a), which is a vertical all-blade gravitational solar heat turbine and heat pump that accelerates and accelerates specific substances by dividing and storing pressure. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle coalescing engines, which are provided with 10 stages of thrust type bearings, bearings, and turbine outer casing (77a), which are acceleration + specific critical material rolling contact drive driven by a separately stored pressure, and a vertical type moving blade gravity solar turbine and heat pump. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Combined with various energy storage cycles in which a vertical all-blade gravity solar turbine and heat pump that accelerates and accelerates liquid metal (2E) with pressure stored separately are provided in a single stage with a thrust bearing, bearing, and turbine outer box (77a) organ. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Power generation equipment with all turbine blades + Increased storage and use of liquid metal with an increasing ball rising device (2F) + Combustion gas heat quantity and mass or compressed air heat quantity and mass Accelerating with pressure stored separately + Accelerating liquid metal with compressed air calorie and mass Accelerating all blade gravity solar turbine and heat pump in two stages with thrust bearing, bearing and turbine outer box (77a) Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or, various types of accelerating + specific critical material acceleration driven vertical full blade gravity solar turbines and heat pumps with thrust bearings, bearings, and turbine outer casing (77a) provided in three stages with pressure stored in divided quantity of heat and mass of compressed air Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical all-blade gravity solar heat turbine and heat pump that accelerates acceleration with specific pressures stored in divided quantity of heat and mass of compressed air, and a heat pump are installed in four stages together with thrust bearings, bearings, and turbine outer casing (77a). Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Alternatively, a vertical type moving blade gravity solar turbine and heat pump driven by acceleration + specific material rolling contact driven by pressure divided and stored in compressed air calorie and mass are installed in five stages together with thrust bearings, bearings and turbine outer casing (77a) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or a vertical full rotor blade gravity solar heat turbine and heat pump that accelerates and accelerates the liquid metal (2E) with a pressure that is divided and stored in compressed air calorie and mass in six stages together with thrust bearings, bearings, and turbine outer casing (77a) Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and use liquid metal with increase ball lift device (2F) + Combustion gas heat quantity and mass Or accelerating with compressed air heat and mass divided pressure + vertical moving blade gravity solar turbine and heat pump that drives liquid metal with compressed air heat and mass together with thrust bearing, bearing and turbine outer box (77a) Various energy conservation cycle coalescence engine provided in 7 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere riser (2F) to save and store liquid metal + combustion gas calorie and mass or compressed air divided and stored in pressure and pressure + specific critical material acceleration driven vertical full blade gravity solar thermal turbine and Various energy storage cycle coalescing engines with heat pumps installed in 8 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Accelerated by pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertically moving blade gravity solar thermal turbine driven by acceleration of specific material And various energy storage cycle coalescing engines provided with heat pumps in nine stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + combustion gas calorie and mass or compressed air divided and stored in pressure and acceleration + specific critical material rolling contact driven vertical full blade gravity solar thermal turbine And various energy storage cycle coalescing engines provided with heat pumps in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + vertical moving blade gravity that accelerates liquid metal (2E) Various energy storage cycle coalescing engines in which a solar heat turbine and a heat pump are provided in one stage together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+燃焼ガス熱量と質量又は圧縮空気熱量と質量に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere lift device (2F) + Acceleration with pressure divided and stored in combustion gas calorie and mass or compressed air calorie and mass + Vertical type that drives liquid metal accelerated with compressed air calorie and mass Various energy storage cycle coalescing engines in which a moving blade gravity solar turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight and save each combustion gas calorie pressure and mass pressure to drive each turbine + Vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescing engines provided in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery of air with sunlight and divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine and heat of specific critical material accelerated drive Various energy storage cycle coalescing engines in which pumps are provided in four stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery from solar air to save combustion gas calorie pressure and mass pressure separately to drive each turbine + Specific critical material rolling contact driven vertical all blade gravity solar heat turbine and heat Various energy storage cycle coalescing engines with pumps in five stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat-compressed heat is recovered with sunlight, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Vertical moving blade gravity solar heat turbine that accelerates liquid metal (2E) And various energy storage cycle coalescing engines in which a heat pump is provided in six stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat recovery by compressing heat by heating air with solar light and storing combustion gas calorie pressure and mass pressure separately to drive each turbine + Vertically moving blades that drive liquid metal accelerated by heat and mass of compressed air Various energy storage cycle coalescing engines in which a gravity solar heat turbine and a heat pump are provided in seven stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines in which a driven vertical all blade gravity solar turbine and a heat pump are provided in 8 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines in which an acceleration driven vertical all blade gravity solar turbine and heat pump are provided in 9 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which contact driven vertical all blade gravity solar turbines and heat pumps are provided in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical type full-blade gravity solar turbine and a heat pump that are driven in an accelerated manner are provided in one stage together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in two stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines, in which a driven vertical all blade gravity solar turbine and heat pump are provided in three stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines with acceleration driven vertical all blade gravity solar turbine and heat pump in four stages together with thrust bearing, bearing and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the output sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising ball lift device (2F) + Heat is compressed and heat recovered with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which a contact-driven vertical all blade gravity solar turbine and heat pump are provided in five stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical all-blade gravity solar turbine and a heat pump are driven in six stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in seven stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + heat and compression heat recovery by sunlight and splitting and storing into combustion gas calorie pressure and mass pressure to drive each turbine + vertical type acceleration of specific material acceleration Various energy storage cycle coalescing engines with all rotor blade gravity solar turbines and heat pumps installed in 8 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion In (2F), the liquid metal is used for ascending storage + heating and compressing heat recovery of the air with sunlight and dividing and storing it into combustion gas calorie pressure and mass pressure to drive each turbine + acceleration of specific critical substances Various energy storage cycle coalescing engines, each of which is equipped with a 9-stage type full rotor blade gravity solar turbine and heat pump together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat from sunlight to recover and compressing combustion gas into caloric pressure and mass pressure to drive each turbine + specific material rolling contact driving Various energy storage cycle coalescing engines in which a type full blade gravity solar heat turbine and a heat pump are provided in 10 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves heat by compressing heat with sunlight and storing it in combustion gas calorie pressure and mass pressure to drive each turbine + accelerating drive of liquid metal (2E) Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump are provided in one stage together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing combustion gas into calorie pressure and mass pressure to drive each turbine + Liquid metal to heat and mass of compressed air Various energy storage cycle coalescing engines in which a vertical all-blade gravity solar turbine and a heat pump that are accelerated and driven are provided in two stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + heat and compression heat recovery by sunlight and splitting and storing into combustion gas calorie pressure and mass pressure to drive each turbine + vertical type acceleration of specific material acceleration Various energy storage cycle coalescing engines in which a full rotor blade gravity solar turbine and heat pump are provided in three stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + heat and compression heat recovery by sunlight and splitting and storing into combustion gas calorie pressure and mass pressure to drive each turbine + vertical type acceleration of specific material acceleration Various energy storage cycle coalescing engines in which all blade gravity solar heat turbines and heat pumps are provided in four stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + heat and compression heat recovery by sunlight and splitting and storing into combustion gas calorie pressure and mass pressure to drive each turbine + vertical type acceleration of specific material acceleration Various energy storage cycle coalescing engines in which all blade gravity solar heat turbines and heat pumps are provided in five stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + heat and compression heat recovery by sunlight and splitting and storing into combustion gas calorie pressure and mass pressure to drive each turbine + vertical type acceleration of specific material acceleration Various energy storage cycle coalescing engines in which all-blade gravity solar heat turbines and heat pumps are provided in six stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + heat and compression heat recovery by sunlight and splitting and storing into combustion gas calorie pressure and mass pressure to drive each turbine + vertical type acceleration of specific material acceleration Various energy storage cycle coalescing engines with all rotor blade gravity solar turbines and heat pumps installed in 7 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion In (2F), the liquid metal is used for ascending storage + heating and compressing heat recovery of the air with sunlight and dividing and storing it into combustion gas calorie pressure and mass pressure to drive each turbine + acceleration of specific critical substances Various energy storage cycle coalescing engines, each of which has a type full blade gravity solar turbine and heat pump in 8 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion In (2F), the liquid metal is used for ascending storage + heating and compressing heat recovery of the air with sunlight and dividing and storing it into combustion gas calorie pressure and mass pressure to drive each turbine + acceleration of specific critical substances Various energy storage cycle coalescing engines, each of which is equipped with a 9-stage type full rotor blade gravity solar turbine and heat pump together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion In (2F), the liquid metal is used for ascending storage + heating and compressing heat recovery of the air with sunlight and dividing and storing it into combustion gas calorie pressure and mass pressure to drive each turbine + acceleration of specific critical substances Various energy storage cycle coalescing engines in which a type full blade gravity solar heat turbine and a heat pump are provided in 10 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion In (2F), the liquid metal is used for ascending storage + heating and compressing heat recovery of the air with sunlight and dividing and storing it into combustion gas calorie pressure and mass pressure to drive each turbine + acceleration of specific critical substances Various energy storage cycle coalescing engines in which a type full blade gravity solar heat turbine and a heat pump are provided in a single stage together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion In (2F), the liquid metal is used for ascending storage + heating and compressing heat recovery of the air with sunlight and dividing and storing it into combustion gas calorie pressure and mass pressure to drive each turbine + acceleration of specific critical substances Various energy storage cycle coalescing engines in which a full rotor blade gravity solar turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat from sunlight to recover and compressing combustion gas into caloric pressure and mass pressure to drive each turbine + specific material rolling contact driving Various energy storage cycle coalescing engines, in which three-type full-blade gravity solar turbines and heat pumps are provided in three stages together with thrust bearings, bearings, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat from sunlight to recover and compressing combustion gas into caloric pressure and mass pressure to drive each turbine + specific material rolling contact driving Various energy storage cycle coalescing engines in which a full rotor blade gravity solar turbine and a heat pump are provided in four stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + A horizontal turbine (1h) with rotating turbines in alternating rotation direction to accelerate mercury downward + Drive various kinds of ships to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat recovery with sunlight and storing it separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific material rolling contact driving Various energy storage cycle coalescing engines in which a type full blade gravity solar heat turbine and a heat pump are provided in five stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat from sunlight to recover and compressing combustion gas into caloric pressure and mass pressure to drive each turbine + specific material rolling contact driving Various energy storage cycle coalescing engines in which a type full rotor blade gravity solar turbine and heat pump are provided in six stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat from sunlight to recover and compressing combustion gas into caloric pressure and mass pressure to drive each turbine + specific material rolling contact driving Various energy storage cycle coalescing engines in which a type full rotor blade gravity solar turbine and heat pump are provided in seven stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves heat by compressing heat with sunlight and storing it in combustion gas calorie pressure and mass pressure to drive each turbine + accelerating drive of liquid metal (2E) A variety of energy storage cycle coalescing engines, in which a vertical all blade gravity solar heat turbine and a heat pump are provided in 8 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves heat by compressing heat with sunlight and storing it in combustion gas calorie pressure and mass pressure to drive each turbine + accelerating drive of liquid metal (2E) Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump are provided in 9 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves heat by compressing heat with sunlight and storing it in combustion gas calorie pressure and mass pressure to drive each turbine + accelerating drive of liquid metal (2E) Various energy storage cycle coalescing engines in which a vertical all blade gravity solar heat turbine and a heat pump are provided in 10 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves heat by compressing heat with sunlight and storing it in combustion gas calorie pressure and mass pressure to drive each turbine + accelerating drive of liquid metal (2E) Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump are provided in one stage together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves heat by compressing heat with sunlight and storing it in combustion gas calorie pressure and mass pressure to drive each turbine + accelerating drive of liquid metal (2E) Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing combustion gas into calorie pressure and mass pressure to drive each turbine + Liquid metal to heat and mass of compressed air Various energy storage cycle coalescing engines, in which a vertical all-blade gravity solar turbine and a heat pump, which are driven by acceleration, are provided in three stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing combustion gas into calorie pressure and mass pressure to drive each turbine + Liquid metal to heat and mass of compressed air Various energy storage cycle coalescing engines in which a vertical all-blade gravity solar turbine and a heat pump that are accelerated and driven are provided in four stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing combustion gas into calorie pressure and mass pressure to drive each turbine + Liquid metal to heat and mass of compressed air Various energy storage cycle coalescing engines, in which a vertical all-blade gravity solar turbine and a heat pump that are accelerated and driven are provided in five stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing combustion gas into calorie pressure and mass pressure to drive each turbine + Liquid metal to heat and mass of compressed air Various energy storage cycle coalescing engines in which a vertical all-blade gravity solar turbine and a heat pump that are accelerated and driven are provided in six stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing combustion gas into calorie pressure and mass pressure to drive each turbine + Liquid metal to heat and mass of compressed air Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated and driven are provided in seven stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat recovery of air with sunlight, and dividing and storing combustion gas in calorie pressure and mass pressure to drive each turbine + vertical rotor blade gravity solar turbine And various energy storage cycle coalescence engines provided with heat pumps in 8 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat recovery of air with sunlight, and dividing and storing combustion gas in calorie pressure and mass pressure to drive each turbine + vertical rotor blade gravity solar turbine And various energy storage cycle coalescing engines provided with heat pumps in nine stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat recovery of air with sunlight, and dividing and storing combustion gas in calorie pressure and mass pressure to drive each turbine + vertical rotor blade gravity solar turbine And various energy storage cycle coalescing engines provided with heat pumps in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat recovery of air with sunlight, and dividing and storing combustion gas in calorie pressure and mass pressure to drive each turbine + vertical rotor blade gravity solar turbine And a combined energy storage cycle engine in which a heat pump is provided in one stage together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat recovery of air with sunlight, and dividing and storing combustion gas in calorie pressure and mass pressure to drive each turbine + vertical rotor blade gravity solar turbine And a combined energy storage cycle engine having a heat pump in two stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation and use + Heat and compression heat recovery with sunlight and splitting and storing combustion gas calorie pressure and mass pressure to drive each turbine + vertical-type full blade gravity solar heat turbine and heat driven by specific material acceleration Various energy storage cycle coalescing engines in which pumps are provided in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Conservation use + Heat and compression heat recovery from sunlight with sunlight and split storage of combustion gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravity solar heat turbine with acceleration driven specific critical material and Various energy storage cycle coalescing engines with heat pumps provided in four stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Conservation use + Heat and compression heat recovery with sunlight and split combustion to save combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine with specific material rolling contact drive and Various energy storage cycle coalescing engines with heat pumps provided in five stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Conservation use + Heat and compression heat recovery of air with sunlight and split storage of combustion gas into calorie pressure and mass pressure to drive each turbine + Vertical type moving blade gravity solar heat to accelerate liquid metal (2E) Various energy storage cycle coalescing engines in which a turbine and a heat pump are provided in six stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation and use + Heat recovery by heating and compressing air with sunlight and dividing and storing combustion gas calorie pressure and mass pressure to drive each turbine + Vertical type full motion that accelerates liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines with blade gravity solar heat turbine and heat pump provided in 7 stages together with thrust bearing, bearing and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 9 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 10 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in one stage together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in two stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, with thrust bearing, bearing and turbine outer casing (77a) in 3 stages Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn The gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical type full-blade gravity solar heat turbine and heat pump together with thrust bearings, bearings and turbine outer casing (77a) 4 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 5 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar heat turbine and heat pump to accelerate liquid metal (2E) acceleration thrust bearing, bearing and turbine outer casing (77a) Various energy storage cycle coalescence engines provided in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass for thrust bearing, bearing and turbine outer casing (77a) and various energy storage cycle coalescence engines provided in seven stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 9 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 10 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in one stage together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in two stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines, in which a driven vertical all blade gravity solar turbine and heat pump are provided in three stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines with acceleration driven vertical all blade gravity solar turbine and heat pump in four stages together with thrust bearing, bearing and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which a contact-driven vertical all blade gravity solar turbine and a heat pump are provided in five stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical all-blade gravity solar turbine and a heat pump are driven in six stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in seven stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight and save each combustion gas calorie pressure and mass pressure to drive each turbine + Vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescence engines provided in 8 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery of air with sunlight and divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine and heat of specific critical material accelerated drive Various energy storage cycle coalescing engines with pumps arranged in 9 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery from solar air to save combustion gas calorie pressure and mass pressure separately to drive each turbine + Specific critical material rolling contact driven vertical all blade gravity solar heat turbine and heat Various energy storage cycle coalescing engines with pumps in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat-compressed heat is recovered with sunlight, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Vertical moving blade gravity solar heat turbine that accelerates liquid metal (2E) And a combined energy storage cycle engine in which a heat pump is provided in one stage together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat recovery by compressing heat by heating air with solar light and storing combustion gas calorie pressure and mass pressure separately to drive each turbine + Vertically moving blades that drive liquid metal accelerated by heat and mass of compressed air Various energy storage cycle coalescing engines in which a gravity solar heat turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy conservation cycle coalescence engine provided in 3 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 4 stages together with the outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 5 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in six stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divide and store gas calorie pressure and mass pressure to drive each turbine + 8-stage full-rotor gravity gravity solar turbine and heat pump driven by specific material acceleration with thrust bearing, bearing and turbine casing (77a) Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravitational solar thermal turbine and heat pump that drive specific turbines with acceleration, with thrust bearings, bearings and turbine casing (77a) 9 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven vertical rotor blade gravity solar heat turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 10 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar heat turbine and heat pump to accelerate liquid metal (2E) acceleration thrust bearing, bearing and turbine outer casing (77a) In addition, various energy conservation cycle coalescence engines provided in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass for thrust bearing, bearing and turbine outer casing (77a) Combined with various energy storage cycle engines provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy conservation cycle coalescence engine provided in 3 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 4 stages together with the outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 5 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in six stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines in which a driven vertical all blade gravity solar turbine and a heat pump are provided in 8 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines in which an acceleration driven vertical all blade gravity solar turbine and heat pump are provided in 9 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which contact driven vertical all blade gravity solar turbines and heat pumps are provided in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical type full-blade gravity solar turbine and a heat pump that are driven in an accelerated manner are provided in one stage together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in two stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight and save each combustion gas calorie pressure and mass pressure to drive each turbine + Vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescing engines provided in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery of air with sunlight and divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine and heat of specific critical material accelerated drive Various energy storage cycle coalescing engines in which pumps are provided in four stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery from solar air to save combustion gas calorie pressure and mass pressure separately to drive each turbine + Specific critical material rolling contact driven vertical all blade gravity solar heat turbine and heat Various energy storage cycle coalescing engines with pumps in five stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat-compressed heat is recovered with sunlight, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Vertical moving blade gravity solar heat turbine that accelerates liquid metal (2E) And various energy storage cycle coalescing engines in which a heat pump is provided in six stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat recovery by compressing heat by heating air with solar light and storing combustion gas calorie pressure and mass pressure separately to drive each turbine + Vertically moving blades that drive liquid metal accelerated by heat and mass of compressed air Various energy storage cycle coalescing engines in which a gravity solar heat turbine and a heat pump are provided in seven stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 9 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 10 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in one stage together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in two stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, with thrust bearing, bearing and turbine outer casing (77a) in 3 stages Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn The gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical type full-blade gravity solar heat turbine and heat pump together with thrust bearings, bearings and turbine outer casing (77a) 4 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 5 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar heat turbine and heat pump to accelerate liquid metal (2E) acceleration thrust bearing, bearing and turbine outer casing (77a) Various energy storage cycle coalescence engines provided in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass for thrust bearing, bearing and turbine outer casing (77a) and various energy storage cycle coalescence engines provided in seven stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 9 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 10 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in one stage together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in two stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines, in which a driven vertical all blade gravity solar turbine and heat pump are provided in three stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines with acceleration driven vertical all blade gravity solar turbine and heat pump in four stages together with thrust bearing, bearing and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which a contact-driven vertical all blade gravity solar turbine and a heat pump are provided in five stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical all-blade gravity solar turbine and a heat pump are driven in six stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in seven stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight and save each combustion gas calorie pressure and mass pressure to drive each turbine + Vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescence engines provided in 8 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery of air with sunlight and divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine and heat of specific critical material accelerated drive Various energy storage cycle coalescing engines with pumps arranged in 9 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery from solar air to save combustion gas calorie pressure and mass pressure separately to drive each turbine + Specific critical material rolling contact driven vertical all blade gravity solar heat turbine and heat Various energy storage cycle coalescing engines with pumps in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat-compressed heat is recovered with sunlight, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Vertical moving blade gravity solar heat turbine that accelerates liquid metal (2E) And a combined energy storage cycle engine in which a heat pump is provided in one stage together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat recovery by compressing heat by heating air with solar light and storing combustion gas calorie pressure and mass pressure separately to drive each turbine + Vertically moving blades that drive liquid metal accelerated by heat and mass of compressed air Various energy storage cycle coalescing engines in which a gravity solar heat turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy conservation cycle coalescence engine provided in 3 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 4 stages together with the outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 5 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in six stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divide and store gas calorie pressure and mass pressure to drive each turbine + 8-stage full-rotor gravity gravity solar turbine and heat pump driven by specific material acceleration with thrust bearing, bearing and turbine casing (77a) Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravitational solar thermal turbine and heat pump that drive specific turbines with acceleration, with thrust bearings, bearings and turbine casing (77a) 9 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven vertical rotor blade gravity solar heat turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 10 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar heat turbine and heat pump to accelerate liquid metal (2E) acceleration thrust bearing, bearing and turbine outer casing (77a) In addition, various energy conservation cycle coalescence engines provided in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass for thrust bearing, bearing and turbine outer casing (77a) Combined with various energy storage cycle engines provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy conservation cycle coalescence engine provided in 3 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 4 stages together with the outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 5 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in six stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines in which a driven vertical all blade gravity solar turbine and a heat pump are provided in 8 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines in which an acceleration driven vertical all blade gravity solar turbine and heat pump are provided in 9 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which contact driven vertical all blade gravity solar turbines and heat pumps are provided in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical type full-blade gravity solar turbine and a heat pump that are driven in an accelerated manner are provided in one stage together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in two stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight and save each combustion gas calorie pressure and mass pressure to drive each turbine + Vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescing engines provided in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery of air with sunlight and divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine and heat of specific critical material accelerated drive Various energy storage cycle coalescing engines in which pumps are provided in four stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery from solar air to save combustion gas calorie pressure and mass pressure separately to drive each turbine + Specific critical material rolling contact driven vertical all blade gravity solar heat turbine and heat Various energy storage cycle coalescing engines with pumps in five stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat-compressed heat is recovered with sunlight, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Vertical moving blade gravity solar heat turbine that accelerates liquid metal (2E) And various energy storage cycle coalescing engines in which a heat pump is provided in six stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat recovery by compressing heat by heating air with solar light and storing combustion gas calorie pressure and mass pressure separately to drive each turbine + Vertically moving blades that drive liquid metal accelerated by heat and mass of compressed air Various energy storage cycle coalescing engines in which a gravity solar heat turbine and a heat pump are provided in seven stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 9 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 10 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in one stage together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in two stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, with thrust bearing, bearing and turbine outer casing (77a) in 3 stages Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn The gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical type full-blade gravity solar heat turbine and heat pump together with thrust bearings, bearings and turbine outer casing (77a) 4 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 5 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar heat turbine and heat pump to accelerate liquid metal (2E) acceleration thrust bearing, bearing and turbine outer casing (77a) Various energy storage cycle coalescence engines provided in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass for thrust bearing, bearing and turbine outer casing (77a) and various energy storage cycle coalescence engines provided in seven stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 9 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 10 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in one stage together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in two stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines, in which a driven vertical all blade gravity solar turbine and heat pump are provided in three stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines with acceleration driven vertical all blade gravity solar turbine and heat pump in four stages together with thrust bearing, bearing and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which a contact-driven vertical all blade gravity solar turbine and a heat pump are provided in five stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical all-blade gravity solar turbine and a heat pump are driven in six stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in seven stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight and save each combustion gas calorie pressure and mass pressure to drive each turbine + Vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescence engines provided in 8 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery of air with sunlight and divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine and heat of specific critical material accelerated drive Various energy storage cycle coalescing engines with pumps arranged in 9 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery from solar air to save combustion gas calorie pressure and mass pressure separately to drive each turbine + Specific critical material rolling contact driven vertical all blade gravity solar heat turbine and heat Various energy storage cycle coalescing engines with pumps in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat-compressed heat is recovered with sunlight, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Vertical moving blade gravity solar heat turbine that accelerates liquid metal (2E) And a combined energy storage cycle engine in which a heat pump is provided in one stage together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat recovery by compressing heat by heating air with solar light and storing combustion gas calorie pressure and mass pressure separately to drive each turbine + Vertically moving blades that drive liquid metal accelerated by heat and mass of compressed air Various energy storage cycle coalescing engines in which a gravity solar heat turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy conservation cycle coalescence engine provided in 3 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 4 stages together with the outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 5 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in six stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divide and store gas calorie pressure and mass pressure to drive each turbine + 8-stage full-rotor gravity gravity solar turbine and heat pump driven by specific material acceleration with thrust bearing, bearing and turbine casing (77a) Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravitational solar thermal turbine and heat pump that drive specific turbines with acceleration, with thrust bearings, bearings and turbine casing (77a) 9 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven vertical rotor blade gravity solar heat turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 10 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar heat turbine and heat pump to accelerate liquid metal (2E) acceleration thrust bearing, bearing and turbine outer casing (77a) In addition, various energy conservation cycle coalescence engines provided in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass for thrust bearing, bearing and turbine outer casing (77a) Combined with various energy storage cycle engines provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy conservation cycle coalescence engine provided in 3 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 4 stages together with the outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 5 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in six stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines in which a driven vertical all blade gravity solar turbine and a heat pump are provided in 8 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines in which an acceleration driven vertical all blade gravity solar turbine and heat pump are provided in 9 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which contact driven vertical all blade gravity solar turbines and heat pumps are provided in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical type full-blade gravity solar turbine and a heat pump that are driven in an accelerated manner are provided in one stage together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in two stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight and save each combustion gas calorie pressure and mass pressure to drive each turbine + Vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescing engines provided in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery of air with sunlight and divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine and heat of specific critical material accelerated drive Various energy storage cycle coalescing engines in which pumps are provided in four stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery from solar air to save combustion gas calorie pressure and mass pressure separately to drive each turbine + Specific critical material rolling contact driven vertical all blade gravity solar heat turbine and heat Various energy storage cycle coalescing engines with pumps in five stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat-compressed heat is recovered with sunlight, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Vertical moving blade gravity solar heat turbine that accelerates liquid metal (2E) And various energy storage cycle coalescing engines in which a heat pump is provided in six stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat recovery by compressing heat by heating air with solar light and storing combustion gas calorie pressure and mass pressure separately to drive each turbine + Vertically moving blades that drive liquid metal accelerated by heat and mass of compressed air Various energy storage cycle coalescing engines in which a gravity solar heat turbine and a heat pump are provided in seven stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 9 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 10 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in one stage together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in two stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, with thrust bearing, bearing and turbine outer casing (77a) in 3 stages Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn The gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical type full-blade gravity solar heat turbine and heat pump together with thrust bearings, bearings and turbine outer casing (77a) 4 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 5 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar heat turbine and heat pump to accelerate liquid metal (2E) acceleration thrust bearing, bearing and turbine outer casing (77a) Various energy storage cycle coalescence engines provided in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass for thrust bearing, bearing and turbine outer casing (77a) and various energy storage cycle coalescence engines provided in seven stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 9 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 10 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in one stage together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in two stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines, in which a driven vertical all blade gravity solar turbine and heat pump are provided in three stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines with acceleration driven vertical all blade gravity solar turbine and heat pump in four stages together with thrust bearing, bearing and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which a contact-driven vertical all blade gravity solar turbine and a heat pump are provided in five stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical all-blade gravity solar turbine and a heat pump are driven in six stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in seven stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight and save each combustion gas calorie pressure and mass pressure to drive each turbine + Vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescence engines provided in 8 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery of air with sunlight and divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine and heat of specific critical material accelerated drive Various energy storage cycle coalescing engines with pumps arranged in 9 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery from solar air to save combustion gas calorie pressure and mass pressure separately to drive each turbine + Specific critical material rolling contact driven vertical all blade gravity solar heat turbine and heat Various energy storage cycle coalescing engines with pumps in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat-compressed heat is recovered with sunlight, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Vertical moving blade gravity solar heat turbine that accelerates liquid metal (2E) And a combined energy storage cycle engine in which a heat pump is provided in one stage together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat recovery by compressing heat by heating air with solar light and storing combustion gas calorie pressure and mass pressure separately to drive each turbine + Vertically moving blades that drive liquid metal accelerated by heat and mass of compressed air Various energy storage cycle coalescing engines in which a gravity solar heat turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy conservation cycle coalescence engine provided in 3 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 4 stages together with the outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 5 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in six stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divide and store gas calorie pressure and mass pressure to drive each turbine + 8-stage full-rotor gravity gravity solar turbine and heat pump driven by specific material acceleration with thrust bearing, bearing and turbine casing (77a) Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravitational solar thermal turbine and heat pump that drive specific turbines with acceleration, with thrust bearings, bearings and turbine casing (77a) 9 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven vertical rotor blade gravity solar heat turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 10 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar heat turbine and heat pump to accelerate liquid metal (2E) acceleration thrust bearing, bearing and turbine outer casing (77a) In addition, various energy conservation cycle coalescence engines provided in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass for thrust bearing, bearing and turbine outer casing (77a) Combined with various energy storage cycle engines provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy conservation cycle coalescence engine provided in 3 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 4 stages together with the outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 5 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in six stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines in which a driven vertical all blade gravity solar turbine and a heat pump are provided in 8 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines in which an acceleration driven vertical all blade gravity solar turbine and heat pump are provided in 9 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which contact driven vertical all blade gravity solar turbines and heat pumps are provided in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical type full-blade gravity solar turbine and a heat pump that are driven in an accelerated manner are provided in one stage together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in two stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight and save each combustion gas calorie pressure and mass pressure to drive each turbine + Vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescing engines provided in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery of air with sunlight and divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine and heat of specific critical material accelerated drive Various energy storage cycle coalescing engines in which pumps are provided in four stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery from solar air to save combustion gas calorie pressure and mass pressure separately to drive each turbine + Specific critical material rolling contact driven vertical all blade gravity solar heat turbine and heat Various energy storage cycle coalescing engines with pumps in five stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat-compressed heat is recovered with sunlight, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Vertical moving blade gravity solar heat turbine that accelerates liquid metal (2E) And various energy storage cycle coalescing engines in which a heat pump is provided in six stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat recovery by compressing heat by heating air with solar light and storing combustion gas calorie pressure and mass pressure separately to drive each turbine + Vertically moving blades that drive liquid metal accelerated by heat and mass of compressed air Various energy storage cycle coalescing engines in which a gravity solar heat turbine and a heat pump are provided in seven stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines in which a driven vertical all blade gravity solar turbine and a heat pump are provided in 8 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines in which an acceleration driven vertical all blade gravity solar turbine and heat pump are provided in 9 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which contact driven vertical all blade gravity solar turbines and heat pumps are provided in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical type full-blade gravity solar turbine and a heat pump that are driven in an accelerated manner are provided in one stage together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in two stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines, in which a driven vertical all blade gravity solar turbine and heat pump are provided in three stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines with acceleration driven vertical all blade gravity solar turbine and heat pump in four stages together with thrust bearing, bearing and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the output sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising ball lift device (2F) + Heat is compressed and heat recovered with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which a contact-driven vertical all blade gravity solar turbine and heat pump are provided in five stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical all-blade gravity solar turbine and a heat pump are driven in six stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in seven stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + heat and compression heat recovery by sunlight and splitting and storing into combustion gas calorie pressure and mass pressure to drive each turbine + vertical type acceleration of specific material acceleration Various energy storage cycle coalescing engines with all rotor blade gravity solar turbines and heat pumps installed in 8 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion In (2F), the liquid metal is used for ascending storage + heating and compressing heat recovery of the air with sunlight and dividing and storing it into combustion gas calorie pressure and mass pressure to drive each turbine + acceleration of specific critical substances Various energy storage cycle coalescing engines, each of which is equipped with a 9-stage type full rotor blade gravity solar turbine and heat pump together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat from sunlight to recover and compressing combustion gas into caloric pressure and mass pressure to drive each turbine + specific material rolling contact driving Various energy storage cycle coalescing engines in which a type full blade gravity solar heat turbine and a heat pump are provided in 10 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves heat by compressing heat with sunlight and storing it in combustion gas calorie pressure and mass pressure to drive each turbine + accelerating drive of liquid metal (2E) Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump are provided in one stage together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing combustion gas into calorie pressure and mass pressure to drive each turbine + Liquid metal to heat and mass of compressed air Various energy storage cycle coalescing engines in which a vertical all-blade gravity solar turbine and a heat pump that are accelerated and driven are provided in two stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + heat and compression heat recovery by sunlight and splitting and storing into combustion gas calorie pressure and mass pressure to drive each turbine + vertical type acceleration of specific material acceleration Various energy storage cycle coalescing engines in which a full rotor blade gravity solar turbine and heat pump are provided in three stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + heat and compression heat recovery by sunlight and splitting and storing into combustion gas calorie pressure and mass pressure to drive each turbine + vertical type acceleration of specific material acceleration Various energy storage cycle coalescing engines in which all blade gravity solar heat turbines and heat pumps are provided in four stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + heat and compression heat recovery by sunlight and splitting and storing into combustion gas calorie pressure and mass pressure to drive each turbine + vertical type acceleration of specific material acceleration Various energy storage cycle coalescing engines in which all blade gravity solar heat turbines and heat pumps are provided in five stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + heat and compression heat recovery by sunlight and splitting and storing into combustion gas calorie pressure and mass pressure to drive each turbine + vertical type acceleration of specific material acceleration Various energy storage cycle coalescing engines in which all-blade gravity solar heat turbines and heat pumps are provided in six stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + heat and compression heat recovery by sunlight and splitting and storing into combustion gas calorie pressure and mass pressure to drive each turbine + vertical type acceleration of specific material acceleration Various energy storage cycle coalescing engines with all rotor blade gravity solar turbines and heat pumps installed in 7 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion In (2F), the liquid metal is used for ascending storage + heating and compressing heat recovery of the air with sunlight and dividing and storing it into combustion gas calorie pressure and mass pressure to drive each turbine + acceleration of specific critical substances Various energy storage cycle coalescing engines, each of which has a type full blade gravity solar turbine and heat pump in 8 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion In (2F), the liquid metal is used for ascending storage + heating and compressing heat recovery of the air with sunlight and dividing and storing it into combustion gas calorie pressure and mass pressure to drive each turbine + acceleration of specific critical substances Various energy storage cycle coalescing engines, each of which is equipped with a 9-stage type full rotor blade gravity solar turbine and heat pump together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion In (2F), the liquid metal is used for ascending storage + heating and compressing heat recovery of the air with sunlight and dividing and storing it into combustion gas calorie pressure and mass pressure to drive each turbine + acceleration of specific critical substances Various energy storage cycle coalescing engines in which a type full blade gravity solar heat turbine and a heat pump are provided in 10 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion In (2F), the liquid metal is used for ascending storage + heating and compressing heat recovery of the air with sunlight and dividing and storing it into combustion gas calorie pressure and mass pressure to drive each turbine + acceleration of specific critical substances Various energy storage cycle coalescing engines in which a type full blade gravity solar heat turbine and a heat pump are provided in a single stage together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion In (2F), the liquid metal is used for ascending storage + heating and compressing heat recovery of the air with sunlight and dividing and storing it into combustion gas calorie pressure and mass pressure to drive each turbine + acceleration of specific critical substances Various energy storage cycle coalescing engines in which a full rotor blade gravity solar turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat from sunlight to recover and compressing combustion gas into caloric pressure and mass pressure to drive each turbine + specific material rolling contact driving Various energy storage cycle coalescing engines, in which three-type full-blade gravity solar turbines and heat pumps are provided in three stages together with thrust bearings, bearings, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat from sunlight to recover and compressing combustion gas into caloric pressure and mass pressure to drive each turbine + specific material rolling contact driving Various energy storage cycle coalescing engines in which a full rotor blade gravity solar turbine and a heat pump are provided in four stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + A horizontal turbine (1h) with rotating turbines in alternating rotation direction to accelerate mercury downward + Drive various kinds of ships to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat recovery with sunlight and storing it separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific material rolling contact driving Various energy storage cycle coalescing engines in which a type full blade gravity solar heat turbine and a heat pump are provided in five stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat from sunlight to recover and compressing combustion gas into caloric pressure and mass pressure to drive each turbine + specific material rolling contact driving Various energy storage cycle coalescing engines in which a type full rotor blade gravity solar turbine and heat pump are provided in six stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat from sunlight to recover and compressing combustion gas into caloric pressure and mass pressure to drive each turbine + specific material rolling contact driving Various energy storage cycle coalescing engines in which a type full rotor blade gravity solar turbine and heat pump are provided in seven stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves heat by compressing heat with sunlight and storing it in combustion gas calorie pressure and mass pressure to drive each turbine + accelerating drive of liquid metal (2E) A variety of energy storage cycle coalescing engines, in which a vertical all blade gravity solar heat turbine and a heat pump are provided in 8 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves heat by compressing heat with sunlight and storing it in combustion gas calorie pressure and mass pressure to drive each turbine + accelerating drive of liquid metal (2E) Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump are provided in 9 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves heat by compressing heat with sunlight and storing it in combustion gas calorie pressure and mass pressure to drive each turbine + accelerating drive of liquid metal (2E) Various energy storage cycle coalescing engines in which a vertical all blade gravity solar heat turbine and a heat pump are provided in 10 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves heat by compressing heat with sunlight and storing it in combustion gas calorie pressure and mass pressure to drive each turbine + accelerating drive of liquid metal (2E) Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump are provided in one stage together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves heat by compressing heat with sunlight and storing it in combustion gas calorie pressure and mass pressure to drive each turbine + accelerating drive of liquid metal (2E) Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing combustion gas into calorie pressure and mass pressure to drive each turbine + Liquid metal to heat and mass of compressed air Various energy storage cycle coalescing engines, in which a vertical all-blade gravity solar turbine and a heat pump, which are driven by acceleration, are provided in three stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing combustion gas into calorie pressure and mass pressure to drive each turbine + Liquid metal to heat and mass of compressed air Various energy storage cycle coalescing engines in which a vertical all-blade gravity solar turbine and a heat pump that are accelerated and driven are provided in four stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing combustion gas into calorie pressure and mass pressure to drive each turbine + Liquid metal to heat and mass of compressed air Various energy storage cycle coalescing engines, in which a vertical all-blade gravity solar turbine and a heat pump that are accelerated and driven are provided in five stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing combustion gas into calorie pressure and mass pressure to drive each turbine + Liquid metal to heat and mass of compressed air Various energy storage cycle coalescing engines in which a vertical all-blade gravity solar turbine and a heat pump that are accelerated and driven are provided in six stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing combustion gas into calorie pressure and mass pressure to drive each turbine + Liquid metal to heat and mass of compressed air Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated and driven are provided in seven stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat recovery of air with sunlight, and dividing and storing combustion gas in calorie pressure and mass pressure to drive each turbine + vertical rotor blade gravity solar turbine And various energy storage cycle coalescence engines provided with heat pumps in 8 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat recovery of air with sunlight, and dividing and storing combustion gas in calorie pressure and mass pressure to drive each turbine + vertical rotor blade gravity solar turbine And various energy storage cycle coalescing engines provided with heat pumps in nine stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat recovery of air with sunlight, and dividing and storing combustion gas in calorie pressure and mass pressure to drive each turbine + vertical rotor blade gravity solar turbine And various energy storage cycle coalescing engines provided with heat pumps in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat recovery of air with sunlight, and dividing and storing combustion gas in calorie pressure and mass pressure to drive each turbine + vertical rotor blade gravity solar turbine And a combined energy storage cycle engine in which a heat pump is provided in one stage together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat recovery of air with sunlight, and dividing and storing combustion gas in calorie pressure and mass pressure to drive each turbine + vertical rotor blade gravity solar turbine And a combined energy storage cycle engine having a heat pump in two stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation and use + Heat and compression heat recovery with sunlight and splitting and storing combustion gas calorie pressure and mass pressure to drive each turbine + vertical-type full blade gravity solar heat turbine and heat driven by specific material acceleration Various energy storage cycle coalescing engines in which pumps are provided in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Conservation use + Heat and compression heat recovery from sunlight with sunlight and split storage of combustion gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravity solar heat turbine with acceleration driven specific critical material and Various energy storage cycle coalescing engines with heat pumps provided in four stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Conservation use + Heat and compression heat recovery with sunlight and split combustion to save combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine with specific material rolling contact drive and Various energy storage cycle coalescing engines with heat pumps provided in five stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Conservation use + Heat and compression heat recovery of air with sunlight and split storage of combustion gas into calorie pressure and mass pressure to drive each turbine + Vertical type moving blade gravity solar heat to accelerate liquid metal (2E) Various energy storage cycle coalescing engines in which a turbine and a heat pump are provided in six stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation and use + Heat recovery by heating and compressing air with sunlight and dividing and storing combustion gas calorie pressure and mass pressure to drive each turbine + Vertical type full motion that accelerates liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines with blade gravity solar heat turbine and heat pump provided in 7 stages together with thrust bearing, bearing and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 9 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 10 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in one stage together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in two stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, with thrust bearing, bearing and turbine outer casing (77a) in 3 stages Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn The gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical type full-blade gravity solar heat turbine and heat pump together with thrust bearings, bearings and turbine outer casing (77a) 4 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 5 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar heat turbine and heat pump to accelerate liquid metal (2E) acceleration thrust bearing, bearing and turbine outer casing (77a) Various energy storage cycle coalescence engines provided in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass for thrust bearing, bearing and turbine outer casing (77a) and various energy storage cycle coalescence engines provided in seven stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 9 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 10 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in one stage together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in two stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines, in which a driven vertical all blade gravity solar turbine and heat pump are provided in three stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines with acceleration driven vertical all blade gravity solar turbine and heat pump in four stages together with thrust bearing, bearing and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which a contact-driven vertical all blade gravity solar turbine and a heat pump are provided in five stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical all-blade gravity solar turbine and a heat pump are driven in six stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in seven stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight and save each combustion gas calorie pressure and mass pressure to drive each turbine + Vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescence engines provided in 8 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery of air with sunlight and divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine and heat of specific critical material accelerated drive Various energy storage cycle coalescing engines with pumps arranged in 9 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery from solar air to save combustion gas calorie pressure and mass pressure separately to drive each turbine + Specific critical material rolling contact driven vertical all blade gravity solar heat turbine and heat Various energy storage cycle coalescing engines with pumps in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat-compressed heat is recovered with sunlight, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Vertical moving blade gravity solar heat turbine that accelerates liquid metal (2E) And a combined energy storage cycle engine in which a heat pump is provided in one stage together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat recovery by compressing heat by heating air with solar light and storing combustion gas calorie pressure and mass pressure separately to drive each turbine + Vertically moving blades that drive liquid metal accelerated by heat and mass of compressed air Various energy storage cycle coalescing engines in which a gravity solar heat turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy conservation cycle coalescence engine provided in 3 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 4 stages together with the outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 5 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in six stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divide and store gas calorie pressure and mass pressure to drive each turbine + 8-stage full-rotor gravity gravity solar turbine and heat pump driven by specific material acceleration with thrust bearing, bearing and turbine casing (77a) Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravitational solar thermal turbine and heat pump that drive specific turbines with acceleration, with thrust bearings, bearings and turbine casing (77a) 9 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven vertical rotor blade gravity solar heat turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 10 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar heat turbine and heat pump to accelerate liquid metal (2E) acceleration thrust bearing, bearing and turbine outer casing (77a) In addition, various energy conservation cycle coalescence engines provided in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass for thrust bearing, bearing and turbine outer casing (77a) Combined with various energy storage cycle engines provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy conservation cycle coalescence engine provided in 3 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 4 stages together with the outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 5 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in six stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines in which a driven vertical all blade gravity solar turbine and a heat pump are provided in 8 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines in which an acceleration driven vertical all blade gravity solar turbine and heat pump are provided in 9 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which contact driven vertical all blade gravity solar turbines and heat pumps are provided in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical type full-blade gravity solar turbine and a heat pump that are driven in an accelerated manner are provided in one stage together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in two stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight and save each combustion gas calorie pressure and mass pressure to drive each turbine + Vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescing engines provided in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery of air with sunlight and divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine and heat of specific critical material accelerated drive Various energy storage cycle coalescing engines in which pumps are provided in four stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery from solar air to save combustion gas calorie pressure and mass pressure separately to drive each turbine + Specific critical material rolling contact driven vertical all blade gravity solar heat turbine and heat Various energy storage cycle coalescing engines with pumps in five stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat-compressed heat is recovered with sunlight, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Vertical moving blade gravity solar heat turbine that accelerates liquid metal (2E) And various energy storage cycle coalescing engines in which a heat pump is provided in six stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat recovery by compressing heat by heating air with solar light and storing combustion gas calorie pressure and mass pressure separately to drive each turbine + Vertically moving blades that drive liquid metal accelerated by heat and mass of compressed air Various energy storage cycle coalescing engines in which a gravity solar heat turbine and a heat pump are provided in seven stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 9 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 10 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in one stage together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in two stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, with thrust bearing, bearing and turbine outer casing (77a) in 3 stages Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn The gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical type full-blade gravity solar heat turbine and heat pump together with thrust bearings, bearings and turbine outer casing (77a) 4 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 5 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar heat turbine and heat pump to accelerate liquid metal (2E) acceleration thrust bearing, bearing and turbine outer casing (77a) Various energy storage cycle coalescence engines provided in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass for thrust bearing, bearing and turbine outer casing (77a) and various energy storage cycle coalescence engines provided in seven stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 9 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 10 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in one stage together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in two stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines, in which a driven vertical all blade gravity solar turbine and heat pump are provided in three stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines with acceleration driven vertical all blade gravity solar turbine and heat pump in four stages together with thrust bearing, bearing and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which a contact-driven vertical all blade gravity solar turbine and a heat pump are provided in five stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical all-blade gravity solar turbine and a heat pump are driven in six stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in seven stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight and save each combustion gas calorie pressure and mass pressure to drive each turbine + Vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescence engines provided in 8 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery of air with sunlight and divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine and heat of specific critical material accelerated drive Various energy storage cycle coalescing engines with pumps arranged in 9 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery from solar air to save combustion gas calorie pressure and mass pressure separately to drive each turbine + Specific critical material rolling contact driven vertical all blade gravity solar heat turbine and heat Various energy storage cycle coalescing engines with pumps in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat-compressed heat is recovered with sunlight, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Vertical moving blade gravity solar heat turbine that accelerates liquid metal (2E) And a combined energy storage cycle engine in which a heat pump is provided in one stage together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat recovery by compressing heat by heating air with solar light and storing combustion gas calorie pressure and mass pressure separately to drive each turbine + Vertically moving blades that drive liquid metal accelerated by heat and mass of compressed air Various energy storage cycle coalescing engines in which a gravity solar heat turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy conservation cycle coalescence engine provided in 3 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 4 stages together with the outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 5 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in six stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divide and store gas calorie pressure and mass pressure to drive each turbine + 8-stage full-rotor gravity gravity solar turbine and heat pump driven by specific material acceleration with thrust bearing, bearing and turbine casing (77a) Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravitational solar thermal turbine and heat pump that drive specific turbines with acceleration, with thrust bearings, bearings and turbine casing (77a) 9 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven vertical rotor blade gravity solar heat turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 10 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar heat turbine and heat pump to accelerate liquid metal (2E) acceleration thrust bearing, bearing and turbine outer casing (77a) In addition, various energy conservation cycle coalescence engines provided in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass for thrust bearing, bearing and turbine outer casing (77a) Combined with various energy storage cycle engines provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy conservation cycle coalescence engine provided in 3 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 4 stages together with the outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 5 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in six stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines in which a driven vertical all blade gravity solar turbine and a heat pump are provided in 8 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines in which an acceleration driven vertical all blade gravity solar turbine and heat pump are provided in 9 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which contact driven vertical all blade gravity solar turbines and heat pumps are provided in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical type full-blade gravity solar turbine and a heat pump that are driven in an accelerated manner are provided in one stage together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in two stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight and save each combustion gas calorie pressure and mass pressure to drive each turbine + Vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescing engines provided in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery of air with sunlight and divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine and heat of specific critical material accelerated drive Various energy storage cycle coalescing engines in which pumps are provided in four stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery from solar air to save combustion gas calorie pressure and mass pressure separately to drive each turbine + Specific critical material rolling contact driven vertical all blade gravity solar heat turbine and heat Various energy storage cycle coalescing engines with pumps in five stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat-compressed heat is recovered with sunlight, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Vertical moving blade gravity solar heat turbine that accelerates liquid metal (2E) And various energy storage cycle coalescing engines in which a heat pump is provided in six stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat recovery by compressing heat by heating air with solar light and storing combustion gas calorie pressure and mass pressure separately to drive each turbine + Vertically moving blades that drive liquid metal accelerated by heat and mass of compressed air Various energy storage cycle coalescing engines in which a gravity solar heat turbine and a heat pump are provided in seven stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 9 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 10 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in one stage together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in two stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, with thrust bearing, bearing and turbine outer casing (77a) in 3 stages Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn The gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical type full-blade gravity solar heat turbine and heat pump together with thrust bearings, bearings and turbine outer casing (77a) 4 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 5 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar heat turbine and heat pump to accelerate liquid metal (2E) acceleration thrust bearing, bearing and turbine outer casing (77a) Various energy storage cycle coalescence engines provided in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass for thrust bearing, bearing and turbine outer casing (77a) and various energy storage cycle coalescence engines provided in seven stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 9 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 10 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in one stage together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in two stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines, in which a driven vertical all blade gravity solar turbine and heat pump are provided in three stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines with acceleration driven vertical all blade gravity solar turbine and heat pump in four stages together with thrust bearing, bearing and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which a contact-driven vertical all blade gravity solar turbine and a heat pump are provided in five stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical all-blade gravity solar turbine and a heat pump are driven in six stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in seven stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight and save each combustion gas calorie pressure and mass pressure to drive each turbine + Vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescence engines provided in 8 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery of air with sunlight and divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine and heat of specific critical material accelerated drive Various energy storage cycle coalescing engines with pumps arranged in 9 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery from solar air to save combustion gas calorie pressure and mass pressure separately to drive each turbine + Specific critical material rolling contact driven vertical all blade gravity solar heat turbine and heat Various energy storage cycle coalescing engines with pumps in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat-compressed heat is recovered with sunlight, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Vertical moving blade gravity solar heat turbine that accelerates liquid metal (2E) And a combined energy storage cycle engine in which a heat pump is provided in one stage together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat recovery by compressing heat by heating air with solar light and storing combustion gas calorie pressure and mass pressure separately to drive each turbine + Vertically moving blades that drive liquid metal accelerated by heat and mass of compressed air Various energy storage cycle coalescing engines in which a gravity solar heat turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy conservation cycle coalescence engine provided in 3 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 4 stages together with the outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 5 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in six stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divide and store gas calorie pressure and mass pressure to drive each turbine + 8-stage full-rotor gravity gravity solar turbine and heat pump driven by specific material acceleration with thrust bearing, bearing and turbine casing (77a) Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravitational solar thermal turbine and heat pump that drive specific turbines with acceleration, with thrust bearings, bearings and turbine casing (77a) 9 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven vertical rotor blade gravity solar heat turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 10 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar heat turbine and heat pump to accelerate liquid metal (2E) acceleration thrust bearing, bearing and turbine outer casing (77a) In addition, various energy conservation cycle coalescence engines provided in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass for thrust bearing, bearing and turbine outer casing (77a) Combined with various energy storage cycle engines provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy conservation cycle coalescence engine provided in 3 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 4 stages together with the outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 5 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in six stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines in which a driven vertical all blade gravity solar turbine and a heat pump are provided in 8 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines in which an acceleration driven vertical all blade gravity solar turbine and heat pump are provided in 9 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which contact driven vertical all blade gravity solar turbines and heat pumps are provided in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical type full-blade gravity solar turbine and a heat pump that are driven in an accelerated manner are provided in one stage together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in two stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight and save each combustion gas calorie pressure and mass pressure to drive each turbine + Vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescing engines provided in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery of air with sunlight and divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine and heat of specific critical material accelerated drive Various energy storage cycle coalescing engines in which pumps are provided in four stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery from solar air to save combustion gas calorie pressure and mass pressure separately to drive each turbine + Specific critical material rolling contact driven vertical all blade gravity solar heat turbine and heat Various energy storage cycle coalescing engines with pumps in five stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat-compressed heat is recovered with sunlight, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Vertical moving blade gravity solar heat turbine that accelerates liquid metal (2E) And various energy storage cycle coalescing engines in which a heat pump is provided in six stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat recovery by compressing heat by heating air with solar light and storing combustion gas calorie pressure and mass pressure separately to drive each turbine + Vertically moving blades that drive liquid metal accelerated by heat and mass of compressed air Various energy storage cycle coalescing engines in which a gravity solar heat turbine and a heat pump are provided in seven stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 9 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 10 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in one stage together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in two stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, with thrust bearing, bearing and turbine outer casing (77a) in 3 stages Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn The gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical type full-blade gravity solar heat turbine and heat pump together with thrust bearings, bearings and turbine outer casing (77a) 4 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 5 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar heat turbine and heat pump to accelerate liquid metal (2E) acceleration thrust bearing, bearing and turbine outer casing (77a) Various energy storage cycle coalescence engines provided in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass for thrust bearing, bearing and turbine outer casing (77a) and various energy storage cycle coalescence engines provided in seven stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 9 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 10 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in one stage together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in two stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines, in which a driven vertical all blade gravity solar turbine and heat pump are provided in three stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines with acceleration driven vertical all blade gravity solar turbine and heat pump in four stages together with thrust bearing, bearing and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which a contact-driven vertical all blade gravity solar turbine and a heat pump are provided in five stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical all-blade gravity solar turbine and a heat pump are driven in six stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in seven stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight and save each combustion gas calorie pressure and mass pressure to drive each turbine + Vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescence engines provided in 8 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery of air with sunlight and divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine and heat of specific critical material accelerated drive Various energy storage cycle coalescing engines with pumps arranged in 9 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery from solar air to save combustion gas calorie pressure and mass pressure separately to drive each turbine + Specific critical material rolling contact driven vertical all blade gravity solar heat turbine and heat Various energy storage cycle coalescing engines with pumps in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat-compressed heat is recovered with sunlight, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Vertical moving blade gravity solar heat turbine that accelerates liquid metal (2E) And a combined energy storage cycle engine in which a heat pump is provided in one stage together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat recovery by compressing heat by heating air with solar light and storing combustion gas calorie pressure and mass pressure separately to drive each turbine + Vertically moving blades that drive liquid metal accelerated by heat and mass of compressed air Various energy storage cycle coalescing engines in which a gravity solar heat turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy conservation cycle coalescence engine provided in 3 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 4 stages together with the outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 5 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in six stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divide and store gas calorie pressure and mass pressure to drive each turbine + 8-stage full-rotor gravity gravity solar turbine and heat pump driven by specific material acceleration with thrust bearing, bearing and turbine casing (77a) Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravitational solar thermal turbine and heat pump that drive specific turbines with acceleration, with thrust bearings, bearings and turbine casing (77a) 9 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven vertical rotor blade gravity solar heat turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 10 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar heat turbine and heat pump to accelerate liquid metal (2E) acceleration thrust bearing, bearing and turbine outer casing (77a) In addition, various energy conservation cycle coalescence engines provided in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass for thrust bearing, bearing and turbine outer casing (77a) Combined with various energy storage cycle engines provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy conservation cycle coalescence engine provided in 3 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 4 stages together with the outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 5 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in six stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines in which a driven vertical all blade gravity solar turbine and a heat pump are provided in 8 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines in which an acceleration driven vertical all blade gravity solar turbine and heat pump are provided in 9 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which contact driven vertical all blade gravity solar turbines and heat pumps are provided in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical type full-blade gravity solar turbine and a heat pump that are driven in an accelerated manner are provided in one stage together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in two stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight and save each combustion gas calorie pressure and mass pressure to drive each turbine + Vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescing engines provided in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery of air with sunlight and divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine and heat of specific critical material accelerated drive Various energy storage cycle coalescing engines in which pumps are provided in four stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery from solar air to save combustion gas calorie pressure and mass pressure separately to drive each turbine + Specific critical material rolling contact driven vertical all blade gravity solar heat turbine and heat Various energy storage cycle coalescing engines with pumps in five stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat-compressed heat is recovered with sunlight, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Vertical moving blade gravity solar heat turbine that accelerates liquid metal (2E) And various energy storage cycle coalescing engines in which a heat pump is provided in six stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat recovery by compressing heat by heating air with solar light and storing combustion gas calorie pressure and mass pressure separately to drive each turbine + Vertically moving blades that drive liquid metal accelerated by heat and mass of compressed air Various energy storage cycle coalescing engines in which a gravity solar heat turbine and a heat pump are provided in seven stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines in which a driven vertical all blade gravity solar turbine and a heat pump are provided in 8 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines in which an acceleration driven vertical all blade gravity solar turbine and heat pump are provided in 9 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which contact driven vertical all blade gravity solar turbines and heat pumps are provided in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical type full-blade gravity solar turbine and a heat pump that are driven in an accelerated manner are provided in one stage together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in two stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines, in which a driven vertical all blade gravity solar turbine and heat pump are provided in three stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines with acceleration driven vertical all blade gravity solar turbine and heat pump in four stages together with thrust bearing, bearing and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the output sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising ball lift device (2F) + Heat is compressed and heat recovered with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which a contact-driven vertical all blade gravity solar turbine and heat pump are provided in five stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical all-blade gravity solar turbine and a heat pump are driven in six stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in seven stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + heat and compression heat recovery by sunlight and splitting and storing into combustion gas calorie pressure and mass pressure to drive each turbine + vertical type acceleration of specific material acceleration Various energy storage cycle coalescing engines with all rotor blade gravity solar turbines and heat pumps installed in 8 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion In (2F), the liquid metal is used for ascending storage + heating and compressing heat recovery of the air with sunlight and dividing and storing it into combustion gas calorie pressure and mass pressure to drive each turbine + acceleration of specific critical substances Various energy storage cycle coalescing engines, each of which is equipped with a 9-stage type full rotor blade gravity solar turbine and heat pump together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat from sunlight to recover and compressing combustion gas into caloric pressure and mass pressure to drive each turbine + specific material rolling contact driving Various energy storage cycle coalescing engines in which a type full blade gravity solar heat turbine and a heat pump are provided in 10 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves heat by compressing heat with sunlight and storing it in combustion gas calorie pressure and mass pressure to drive each turbine + accelerating drive of liquid metal (2E) Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump are provided in one stage together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing combustion gas into calorie pressure and mass pressure to drive each turbine + Liquid metal to heat and mass of compressed air Various energy storage cycle coalescing engines in which a vertical all-blade gravity solar turbine and a heat pump that are accelerated and driven are provided in two stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + heat and compression heat recovery by sunlight and splitting and storing into combustion gas calorie pressure and mass pressure to drive each turbine + vertical type acceleration of specific material acceleration Various energy storage cycle coalescing engines in which a full rotor blade gravity solar turbine and heat pump are provided in three stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + heat and compression heat recovery by sunlight and splitting and storing into combustion gas calorie pressure and mass pressure to drive each turbine + vertical type acceleration of specific material acceleration Various energy storage cycle coalescing engines in which all blade gravity solar heat turbines and heat pumps are provided in four stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + heat and compression heat recovery by sunlight and splitting and storing into combustion gas calorie pressure and mass pressure to drive each turbine + vertical type acceleration of specific material acceleration Various energy storage cycle coalescing engines in which all blade gravity solar heat turbines and heat pumps are provided in five stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + heat and compression heat recovery by sunlight and splitting and storing into combustion gas calorie pressure and mass pressure to drive each turbine + vertical type acceleration of specific material acceleration Various energy storage cycle coalescing engines in which all-blade gravity solar heat turbines and heat pumps are provided in six stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + heat and compression heat recovery by sunlight and splitting and storing into combustion gas calorie pressure and mass pressure to drive each turbine + vertical type acceleration of specific material acceleration Various energy storage cycle coalescing engines with all rotor blade gravity solar turbines and heat pumps installed in 7 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion In (2F), the liquid metal is used for ascending storage + heating and compressing heat recovery of the air with sunlight and dividing and storing it into combustion gas calorie pressure and mass pressure to drive each turbine + acceleration of specific critical substances Various energy storage cycle coalescing engines, each of which has a type full blade gravity solar turbine and heat pump in 8 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion In (2F), the liquid metal is used for ascending storage + heating and compressing heat recovery of the air with sunlight and dividing and storing it into combustion gas calorie pressure and mass pressure to drive each turbine + acceleration of specific critical substances Various energy storage cycle coalescing engines, each of which is equipped with a 9-stage type full rotor blade gravity solar turbine and heat pump together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion In (2F), the liquid metal is used for ascending storage + heating and compressing heat recovery of the air with sunlight and dividing and storing it into combustion gas calorie pressure and mass pressure to drive each turbine + acceleration of specific critical substances Various energy storage cycle coalescing engines in which a type full blade gravity solar heat turbine and a heat pump are provided in 10 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion In (2F), the liquid metal is used for ascending storage + heating and compressing heat recovery of the air with sunlight and dividing and storing it into combustion gas calorie pressure and mass pressure to drive each turbine + acceleration of specific critical substances Various energy storage cycle coalescing engines in which a type full blade gravity solar heat turbine and a heat pump are provided in a single stage together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion In (2F), the liquid metal is used for ascending storage + heating and compressing heat recovery of the air with sunlight and dividing and storing it into combustion gas calorie pressure and mass pressure to drive each turbine + acceleration of specific critical substances Various energy storage cycle coalescing engines in which a full rotor blade gravity solar turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat from sunlight to recover and compressing combustion gas into caloric pressure and mass pressure to drive each turbine + specific material rolling contact driving Various energy storage cycle coalescing engines, in which three-type full-blade gravity solar turbines and heat pumps are provided in three stages together with thrust bearings, bearings, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat from sunlight to recover and compressing combustion gas into caloric pressure and mass pressure to drive each turbine + specific material rolling contact driving Various energy storage cycle coalescing engines in which a full rotor blade gravity solar turbine and a heat pump are provided in four stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + A horizontal turbine (1h) with rotating turbines in alternating rotation direction to accelerate mercury downward + Drive various kinds of ships to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat recovery with sunlight and storing it separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific material rolling contact driving Various energy storage cycle coalescing engines in which a type full blade gravity solar heat turbine and a heat pump are provided in five stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat from sunlight to recover and compressing combustion gas into caloric pressure and mass pressure to drive each turbine + specific material rolling contact driving Various energy storage cycle coalescing engines in which a type full rotor blade gravity solar turbine and heat pump are provided in six stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat from sunlight to recover and compressing combustion gas into caloric pressure and mass pressure to drive each turbine + specific material rolling contact driving Various energy storage cycle coalescing engines in which a type full rotor blade gravity solar turbine and heat pump are provided in seven stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves heat by compressing heat with sunlight and storing it in combustion gas calorie pressure and mass pressure to drive each turbine + accelerating drive of liquid metal (2E) A variety of energy storage cycle coalescing engines, in which a vertical all blade gravity solar heat turbine and a heat pump are provided in 8 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves heat by compressing heat with sunlight and storing it in combustion gas calorie pressure and mass pressure to drive each turbine + accelerating drive of liquid metal (2E) Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump are provided in 9 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves heat by compressing heat with sunlight and storing it in combustion gas calorie pressure and mass pressure to drive each turbine + accelerating drive of liquid metal (2E) Various energy storage cycle coalescing engines in which a vertical all blade gravity solar heat turbine and a heat pump are provided in 10 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves heat by compressing heat with sunlight and storing it in combustion gas calorie pressure and mass pressure to drive each turbine + accelerating drive of liquid metal (2E) Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump are provided in one stage together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves heat by compressing heat with sunlight and storing it in combustion gas calorie pressure and mass pressure to drive each turbine + accelerating drive of liquid metal (2E) Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing combustion gas into calorie pressure and mass pressure to drive each turbine + Liquid metal to heat and mass of compressed air Various energy storage cycle coalescing engines, in which a vertical all-blade gravity solar turbine and a heat pump, which are driven by acceleration, are provided in three stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing combustion gas into calorie pressure and mass pressure to drive each turbine + Liquid metal to heat and mass of compressed air Various energy storage cycle coalescing engines in which a vertical all-blade gravity solar turbine and a heat pump that are accelerated and driven are provided in four stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing combustion gas into calorie pressure and mass pressure to drive each turbine + Liquid metal to heat and mass of compressed air Various energy storage cycle coalescing engines, in which a vertical all-blade gravity solar turbine and a heat pump that are accelerated and driven are provided in five stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing combustion gas into calorie pressure and mass pressure to drive each turbine + Liquid metal to heat and mass of compressed air Various energy storage cycle coalescing engines in which a vertical all-blade gravity solar turbine and a heat pump that are accelerated and driven are provided in six stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing combustion gas into calorie pressure and mass pressure to drive each turbine + Liquid metal to heat and mass of compressed air Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated and driven are provided in seven stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat recovery of air with sunlight, and dividing and storing combustion gas in calorie pressure and mass pressure to drive each turbine + vertical rotor blade gravity solar turbine And various energy storage cycle coalescence engines provided with heat pumps in 8 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat recovery of air with sunlight, and dividing and storing combustion gas in calorie pressure and mass pressure to drive each turbine + vertical rotor blade gravity solar turbine And various energy storage cycle coalescing engines provided with heat pumps in nine stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat recovery of air with sunlight, and dividing and storing combustion gas in calorie pressure and mass pressure to drive each turbine + vertical rotor blade gravity solar turbine And various energy storage cycle coalescing engines provided with heat pumps in 10 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat recovery of air with sunlight, and dividing and storing combustion gas in calorie pressure and mass pressure to drive each turbine + vertical rotor blade gravity solar turbine And a combined energy storage cycle engine in which a heat pump is provided in one stage together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat recovery of air with sunlight, and dividing and storing combustion gas in calorie pressure and mass pressure to drive each turbine + vertical rotor blade gravity solar turbine And a combined energy storage cycle engine having a heat pump in two stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation and use + Heat and compression heat recovery with sunlight and splitting and storing combustion gas calorie pressure and mass pressure to drive each turbine + vertical-type full blade gravity solar heat turbine and heat driven by specific material acceleration Various energy storage cycle coalescing engines in which pumps are provided in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Conservation use + Heat and compression heat recovery from sunlight with sunlight and split storage of combustion gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravity solar heat turbine with acceleration driven specific critical material and Various energy storage cycle coalescing engines with heat pumps provided in four stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Conservation use + Heat and compression heat recovery with sunlight and split combustion to save combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine with specific material rolling contact drive and Various energy storage cycle coalescing engines with heat pumps provided in five stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Conservation use + Heat and compression heat recovery of air with sunlight and split storage of combustion gas into calorie pressure and mass pressure to drive each turbine + Vertical type moving blade gravity solar heat to accelerate liquid metal (2E) Various energy storage cycle coalescing engines in which a turbine and a heat pump are provided in six stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation and use + Heat recovery by heating and compressing air with sunlight and dividing and storing combustion gas calorie pressure and mass pressure to drive each turbine + Vertical type full motion that accelerates liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines with blade gravity solar heat turbine and heat pump provided in 7 stages together with thrust bearing, bearing and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 9 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 10 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in one stage together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in two stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, with thrust bearing, bearing and turbine outer casing (77a) in 3 stages Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn The gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical type full-blade gravity solar heat turbine and heat pump together with thrust bearings, bearings and turbine outer casing (77a) 4 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 5 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar heat turbine and heat pump to accelerate liquid metal (2E) acceleration thrust bearing, bearing and turbine outer casing (77a) Various energy storage cycle coalescence engines provided in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass for thrust bearing, bearing and turbine outer casing (77a) and various energy storage cycle coalescence engines provided in seven stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 9 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 10 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in one stage together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in two stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines, in which a driven vertical all blade gravity solar turbine and heat pump are provided in three stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines with acceleration driven vertical all blade gravity solar turbine and heat pump in four stages together with thrust bearing, bearing and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which a contact-driven vertical all blade gravity solar turbine and a heat pump are provided in five stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical all-blade gravity solar turbine and a heat pump are driven in six stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in seven stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight and save each combustion gas calorie pressure and mass pressure to drive each turbine + Vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescence engines provided in 8 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery of air with sunlight and divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine and heat of specific critical material accelerated drive Various energy storage cycle coalescing engines with pumps arranged in 9 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery from solar air to save combustion gas calorie pressure and mass pressure separately to drive each turbine + Specific critical material rolling contact driven vertical all blade gravity solar heat turbine and heat Various energy storage cycle coalescing engines with pumps in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat-compressed heat is recovered with sunlight, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Vertical moving blade gravity solar heat turbine that accelerates liquid metal (2E) And a combined energy storage cycle engine in which a heat pump is provided in one stage together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat recovery by compressing heat by heating air with solar light and storing combustion gas calorie pressure and mass pressure separately to drive each turbine + Vertically moving blades that drive liquid metal accelerated by heat and mass of compressed air Various energy storage cycle coalescing engines in which a gravity solar heat turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy conservation cycle coalescence engine provided in 3 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 4 stages together with the outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 5 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in six stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divide and store gas calorie pressure and mass pressure to drive each turbine + 8-stage full-rotor gravity gravity solar turbine and heat pump driven by specific material acceleration with thrust bearing, bearing and turbine casing (77a) Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravitational solar thermal turbine and heat pump that drive specific turbines with acceleration, with thrust bearings, bearings and turbine casing (77a) 9 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven vertical rotor blade gravity solar heat turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 10 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar heat turbine and heat pump to accelerate liquid metal (2E) acceleration thrust bearing, bearing and turbine outer casing (77a) In addition, various energy conservation cycle coalescence engines provided in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass for thrust bearing, bearing and turbine outer casing (77a) Combined with various energy storage cycle engines provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy conservation cycle coalescence engine provided in 3 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 4 stages together with the outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 5 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in six stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines in which a driven vertical all blade gravity solar turbine and a heat pump are provided in 8 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines in which an acceleration driven vertical all blade gravity solar turbine and heat pump are provided in 9 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which contact driven vertical all blade gravity solar turbines and heat pumps are provided in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical type full-blade gravity solar turbine and a heat pump that are driven in an accelerated manner are provided in one stage together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in two stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight and save each combustion gas calorie pressure and mass pressure to drive each turbine + Vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescing engines provided in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery of air with sunlight and divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine and heat of specific critical material accelerated drive Various energy storage cycle coalescing engines in which pumps are provided in four stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery from solar air to save combustion gas calorie pressure and mass pressure separately to drive each turbine + Specific critical material rolling contact driven vertical all blade gravity solar heat turbine and heat Various energy storage cycle coalescing engines with pumps in five stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat-compressed heat is recovered with sunlight, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Vertical moving blade gravity solar heat turbine that accelerates liquid metal (2E) And various energy storage cycle coalescing engines in which a heat pump is provided in six stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat recovery by compressing heat by heating air with solar light and storing combustion gas calorie pressure and mass pressure separately to drive each turbine + Vertically moving blades that drive liquid metal accelerated by heat and mass of compressed air Various energy storage cycle coalescing engines in which a gravity solar heat turbine and a heat pump are provided in seven stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 9 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 10 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in one stage together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in two stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, with thrust bearing, bearing and turbine outer casing (77a) in 3 stages Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn The gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical type full-blade gravity solar heat turbine and heat pump together with thrust bearings, bearings and turbine outer casing (77a) 4 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 5 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar heat turbine and heat pump to accelerate liquid metal (2E) acceleration thrust bearing, bearing and turbine outer casing (77a) Various energy storage cycle coalescence engines provided in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass for thrust bearing, bearing and turbine outer casing (77a) and various energy storage cycle coalescence engines provided in seven stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 9 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 10 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in one stage together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in two stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines, in which a driven vertical all blade gravity solar turbine and heat pump are provided in three stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines with acceleration driven vertical all blade gravity solar turbine and heat pump in four stages together with thrust bearing, bearing and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which a contact-driven vertical all blade gravity solar turbine and a heat pump are provided in five stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical all-blade gravity solar turbine and a heat pump are driven in six stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in seven stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight and save each combustion gas calorie pressure and mass pressure to drive each turbine + Vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescence engines provided in 8 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery of air with sunlight and divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine and heat of specific critical material accelerated drive Various energy storage cycle coalescing engines with pumps arranged in 9 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery from solar air to save combustion gas calorie pressure and mass pressure separately to drive each turbine + Specific critical material rolling contact driven vertical all blade gravity solar heat turbine and heat Various energy storage cycle coalescing engines with pumps in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat-compressed heat is recovered with sunlight, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Vertical moving blade gravity solar heat turbine that accelerates liquid metal (2E) And a combined energy storage cycle engine in which a heat pump is provided in one stage together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat recovery by compressing heat by heating air with solar light and storing combustion gas calorie pressure and mass pressure separately to drive each turbine + Vertically moving blades that drive liquid metal accelerated by heat and mass of compressed air Various energy storage cycle coalescing engines in which a gravity solar heat turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy conservation cycle coalescence engine provided in 3 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 4 stages together with the outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 5 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in six stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divide and store gas calorie pressure and mass pressure to drive each turbine + 8-stage full-rotor gravity gravity solar turbine and heat pump driven by specific material acceleration with thrust bearing, bearing and turbine casing (77a) Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravitational solar thermal turbine and heat pump that drive specific turbines with acceleration, with thrust bearings, bearings and turbine casing (77a) 9 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven vertical rotor blade gravity solar heat turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 10 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar heat turbine and heat pump to accelerate liquid metal (2E) acceleration thrust bearing, bearing and turbine outer casing (77a) In addition, various energy conservation cycle coalescence engines provided in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass for thrust bearing, bearing and turbine outer casing (77a) Combined with various energy storage cycle engines provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy conservation cycle coalescence engine provided in 3 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 4 stages together with the outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 5 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in six stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines in which a driven vertical all blade gravity solar turbine and a heat pump are provided in 8 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines in which an acceleration driven vertical all blade gravity solar turbine and heat pump are provided in 9 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which contact driven vertical all blade gravity solar turbines and heat pumps are provided in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical type full-blade gravity solar turbine and a heat pump that are driven in an accelerated manner are provided in one stage together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in two stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight and save each combustion gas calorie pressure and mass pressure to drive each turbine + Vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescing engines provided in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery of air with sunlight and divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine and heat of specific critical material accelerated drive Various energy storage cycle coalescing engines in which pumps are provided in four stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery from solar air to save combustion gas calorie pressure and mass pressure separately to drive each turbine + Specific critical material rolling contact driven vertical all blade gravity solar heat turbine and heat Various energy storage cycle coalescing engines with pumps in five stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat-compressed heat is recovered with sunlight, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Vertical moving blade gravity solar heat turbine that accelerates liquid metal (2E) And various energy storage cycle coalescing engines in which a heat pump is provided in six stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat recovery by compressing heat by heating air with solar light and storing combustion gas calorie pressure and mass pressure separately to drive each turbine + Vertically moving blades that drive liquid metal accelerated by heat and mass of compressed air Various energy storage cycle coalescing engines in which a gravity solar heat turbine and a heat pump are provided in seven stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 9 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 10 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in one stage together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in two stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, with thrust bearing, bearing and turbine outer casing (77a) in 3 stages Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn The gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical type full-blade gravity solar heat turbine and heat pump together with thrust bearings, bearings and turbine outer casing (77a) 4 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 5 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar heat turbine and heat pump to accelerate liquid metal (2E) acceleration thrust bearing, bearing and turbine outer casing (77a) Various energy storage cycle coalescence engines provided in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass for thrust bearing, bearing and turbine outer casing (77a) and various energy storage cycle coalescence engines provided in seven stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 9 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 10 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in one stage together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in two stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines, in which a driven vertical all blade gravity solar turbine and heat pump are provided in three stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines with acceleration driven vertical all blade gravity solar turbine and heat pump in four stages together with thrust bearing, bearing and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which a contact-driven vertical all blade gravity solar turbine and a heat pump are provided in five stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical all-blade gravity solar turbine and a heat pump are driven in six stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in seven stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight and save each combustion gas calorie pressure and mass pressure to drive each turbine + Vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescence engines provided in 8 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery of air with sunlight and divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine and heat of specific critical material accelerated drive Various energy storage cycle coalescing engines with pumps arranged in 9 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery from solar air to save combustion gas calorie pressure and mass pressure separately to drive each turbine + Specific critical material rolling contact driven vertical all blade gravity solar heat turbine and heat Various energy storage cycle coalescing engines with pumps in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat-compressed heat is recovered with sunlight, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Vertical moving blade gravity solar heat turbine that accelerates liquid metal (2E) And a combined energy storage cycle engine in which a heat pump is provided in one stage together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat recovery by compressing heat by heating air with solar light and storing combustion gas calorie pressure and mass pressure separately to drive each turbine + Vertically moving blades that drive liquid metal accelerated by heat and mass of compressed air Various energy storage cycle coalescing engines in which a gravity solar heat turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy conservation cycle coalescence engine provided in 3 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 4 stages together with the outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 5 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in six stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divide and store gas calorie pressure and mass pressure to drive each turbine + 8-stage full-rotor gravity gravity solar turbine and heat pump driven by specific material acceleration with thrust bearing, bearing and turbine casing (77a) Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravitational solar thermal turbine and heat pump that drive specific turbines with acceleration, with thrust bearings, bearings and turbine casing (77a) 9 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven vertical rotor blade gravity solar heat turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 10 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar heat turbine and heat pump to accelerate liquid metal (2E) acceleration thrust bearing, bearing and turbine outer casing (77a) In addition, various energy conservation cycle coalescence engines provided in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass for thrust bearing, bearing and turbine outer casing (77a) Combined with various energy storage cycle engines provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy conservation cycle coalescence engine provided in 3 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 4 stages together with the outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 5 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in six stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines in which a driven vertical all blade gravity solar turbine and a heat pump are provided in 8 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines in which an acceleration driven vertical all blade gravity solar turbine and heat pump are provided in 9 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which contact driven vertical all blade gravity solar turbines and heat pumps are provided in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical type full-blade gravity solar turbine and a heat pump that are driven in an accelerated manner are provided in one stage together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in two stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight and save each combustion gas calorie pressure and mass pressure to drive each turbine + Vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescing engines provided in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery of air with sunlight and divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine and heat of specific critical material accelerated drive Various energy storage cycle coalescing engines in which pumps are provided in four stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery from solar air to save combustion gas calorie pressure and mass pressure separately to drive each turbine + Specific critical material rolling contact driven vertical all blade gravity solar heat turbine and heat Various energy storage cycle coalescing engines with pumps in five stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat-compressed heat is recovered with sunlight, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Vertical moving blade gravity solar heat turbine that accelerates liquid metal (2E) And various energy storage cycle coalescing engines in which a heat pump is provided in six stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat recovery by compressing heat by heating air with solar light and storing combustion gas calorie pressure and mass pressure separately to drive each turbine + Vertically moving blades that drive liquid metal accelerated by heat and mass of compressed air Various energy storage cycle coalescing engines in which a gravity solar heat turbine and a heat pump are provided in seven stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 9 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 10 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in one stage together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in two stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, with thrust bearing, bearing and turbine outer casing (77a) in 3 stages Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn The gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical type full-blade gravity solar heat turbine and heat pump together with thrust bearings, bearings and turbine outer casing (77a) 4 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 5 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar heat turbine and heat pump to accelerate liquid metal (2E) acceleration thrust bearing, bearing and turbine outer casing (77a) Various energy storage cycle coalescence engines provided in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass for thrust bearing, bearing and turbine outer casing (77a) and various energy storage cycle coalescence engines provided in seven stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy storage cycle coalescence engine provided in 8 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 9 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 10 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in one stage together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in two stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines, in which a driven vertical all blade gravity solar turbine and heat pump are provided in three stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines with acceleration driven vertical all blade gravity solar turbine and heat pump in four stages together with thrust bearing, bearing and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which a contact-driven vertical all blade gravity solar turbine and a heat pump are provided in five stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical all-blade gravity solar turbine and a heat pump are driven in six stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in seven stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight and save each combustion gas calorie pressure and mass pressure to drive each turbine + Vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescence engines provided in 8 stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery of air with sunlight and divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine and heat of specific critical material accelerated drive Various energy storage cycle coalescing engines with pumps arranged in 9 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery from solar air to save combustion gas calorie pressure and mass pressure separately to drive each turbine + Specific critical material rolling contact driven vertical all blade gravity solar heat turbine and heat Various energy storage cycle coalescing engines with pumps in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat-compressed heat is recovered with sunlight, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Vertical moving blade gravity solar heat turbine that accelerates liquid metal (2E) And a combined energy storage cycle engine in which a heat pump is provided in one stage together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat recovery by compressing heat by heating air with solar light and storing combustion gas calorie pressure and mass pressure separately to drive each turbine + Vertically moving blades that drive liquid metal accelerated by heat and mass of compressed air Various energy storage cycle coalescing engines in which a gravity solar heat turbine and a heat pump are provided in two stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy conservation cycle coalescence engine provided in 3 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 4 stages together with the outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 5 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in six stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divide and store gas calorie pressure and mass pressure to drive each turbine + 8-stage full-rotor gravity gravity solar turbine and heat pump driven by specific material acceleration with thrust bearing, bearing and turbine casing (77a) Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical-type full-blade gravitational solar thermal turbine and heat pump that drive specific turbines with acceleration, with thrust bearings, bearings and turbine casing (77a) 9 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven vertical rotor blade gravity solar heat turbine and heat pump together with thrust bearing, bearing and turbine outer casing (77a) 10 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar heat turbine and heat pump to accelerate liquid metal (2E) acceleration thrust bearing, bearing and turbine outer casing (77a) In addition, various energy conservation cycle coalescence engines provided in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Dividing and storing gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass for thrust bearing, bearing and turbine outer casing (77a) Combined with various energy storage cycle engines provided in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration, thrust bearings, bearings and outside turbine Various energy conservation cycle coalescence engine provided in 3 stages with box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material acceleration driven vertical full blade gravity solar heat turbine and heat pump to thrust bearings, bearings and turbines Various energy storage cycle coalescence engine provided in 4 stages together with the outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat recovery and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + specific critical material rolling contact driven vertical all blade gravity solar thermal turbine and heat pump with thrust bearing, bearing and turbine Various energy storage cycle coalescence engine provided in 5 stages with outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat-compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical moving blade gravity solar turbine and heat pump that drives liquid metal (2E) acceleration thrust bearing and bearing And various energy storage cycle coalescence engines provided in six stages together with the turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heat and compression heat recovery is performed and divided into combustion gas calorie pressure and mass pressure to drive each turbine + thrust a vertical rotor blade gravity solar turbine and heat pump that accelerates liquid metal with compressed air calorie and mass Various energy storage cycle coalescence engine provided in 7 stages together with bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines in which a driven vertical all blade gravity solar turbine and a heat pump are provided in 8 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines in which an acceleration driven vertical all blade gravity solar turbine and heat pump are provided in 9 stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines in which contact driven vertical all blade gravity solar turbines and heat pumps are provided in 10 stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines in which a vertical type full-blade gravity solar turbine and a heat pump that are driven in an accelerated manner are provided in one stage together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy storage cycle coalescing engines in which a vertical all blade gravity solar turbine and a heat pump that are accelerated by air heat and mass are provided in two stages together with a thrust bearing, a bearing, and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight and save each combustion gas calorie pressure and mass pressure to drive each turbine + Vertical-type full-blade gravity solar heat turbine and heat pump driven by specific material acceleration Various energy storage cycle coalescing engines provided in three stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery of air with sunlight and divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Vertically moving blade gravity solar heat turbine and heat of specific critical material accelerated drive Various energy storage cycle coalescing engines in which pumps are provided in four stages together with thrust bearings, bearings and turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat and compression heat recovery from solar air to save combustion gas calorie pressure and mass pressure separately to drive each turbine + Specific critical material rolling contact driven vertical all blade gravity solar heat turbine and heat Various energy storage cycle coalescing engines with pumps in five stages together with thrust bearings, bearings and turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat-compressed heat is recovered with sunlight, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Vertical moving blade gravity solar heat turbine that accelerates liquid metal (2E) And various energy storage cycle coalescing engines in which a heat pump is provided in six stages together with a thrust bearing, a bearing and a turbine outer casing (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する竪型全動翼重力太陽熱タービン及び熱ポンプを推力軸受や軸受やタービン外箱(77a)と共に7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat recovery by compressing heat by heating air with solar light and storing combustion gas calorie pressure and mass pressure separately to drive each turbine + Vertically moving blades that drive liquid metal accelerated by heat and mass of compressed air Various energy storage cycle coalescing engines in which a gravity solar heat turbine and a heat pump are provided in seven stages together with a thrust bearing, a bearing and a turbine outer box (77a). タービン3種類駆動の液体金属重力太陽熱エンジン+燃料費僅少CO2排気僅少で回転出力噴射推進出力増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbine driven liquid metal gravity solar heat engine + fuel cost is small CO2 exhaust is small and rotational output injection propulsion output increase + liquid ball is lifted and stored by using the rising ball lift device (2F) A vertical all-blade gravity solar thermal turbine equipped with friction loss reducing means (3) for driving each turbine by dividing and storing the combustion gas heat pressure and mass pressure separately and driving specific turbines is provided in 8 stages. Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+燃料費僅少CO2排気僅少で回転出力噴射推進出力増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbine driven liquid metal gravity solar heat engine + fuel cost is small CO2 exhaust is small and rotational output injection propulsion output increase + liquid ball is lifted and stored by using the increase ball lift device (2F) + air is heated by heating and compressed heat recovery The combustion gas calorie pressure and mass pressure are divided and stored to drive each turbine. The specific type of critical material is accelerated to drive the friction loss reduction means (3). Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+燃料費僅少CO2排気僅少で回転出力噴射推進出力増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbine driven liquid metal gravity solar heat engine + fuel cost is small CO2 exhaust is small and rotational output injection propulsion output increase + liquid ball is lifted and stored by using the increase ball lift device (2F) + air is heated by heating and compressed heat recovery Then, the vertical all-blade gravity solar thermal turbine equipped with the friction loss reducing means (3) for driving the respective turbines by dividing the combustion gas calorie pressure and mass pressure and driving each turbine + specific critical material rolling contact to 10 stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+燃料費僅少CO2排気僅少で回転出力噴射推進出力増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbine driven liquid metal gravity solar heat engine + fuel cost is small CO2 exhaust is small and rotational output injection propulsion output increase + liquid ball is lifted and stored by using the rising ball lift device (2F) + air is heated and compressed heat is recovered by sunlight A vertical full-blade gravity solar thermal turbine equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) by driving the turbines by dividing and storing them into combustion gas calorie pressure and mass pressure is 1 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+燃料費僅少CO2排気僅少で回転出力噴射推進出力増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbine driven liquid metal gravity solar heat engine + fuel cost is small CO2 exhaust is small and rotational output injection propulsion output increase + liquid ball is lifted and stored by using the rising ball lift device (2F) + air is heated and compressed heat is recovered by sunlight Then, the combustion gas calorie pressure and mass pressure are divided and stored to drive each turbine + vertical rotor blade gravity solar heat equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engine with two stages of turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere riser (2F) to save and use liquid metal + Heat and compress air with sunlight Three stages of vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for driving the turbines by recovering heat and dividing into combustion gas calorie pressure and mass pressure to drive each turbine + specific critical material acceleration Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere riser (2F) to save and use liquid metal + Heat and compress air with sunlight Recover heat and divide and store into combustion gas calorie pressure and mass pressure to drive each turbine + 4 type full-rotor gravity gravity solar turbine equipped with friction loss reducing means (3) for accelerating specific critical substances Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere riser (2F) to save and use liquid metal + Heat and compress air with sunlight 5 types of vertical rotor blade gravity solar turbines equipped with friction recovery means (3) for recovering heat and dividing and storing combustion gas calorific pressure and mass pressure to drive each turbine + specific material rolling contact drive Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere riser (2F) to save and use liquid metal + Heat and compress air with sunlight Vertical type rotor blade gravity solar heat turbine equipped with friction loss reducing means (3) for driving and recovering heat and dividing and storing the combustion gas into calorie pressure and mass pressure to drive each turbine + liquid metal (2E) Various energy conservation cycle coalescing engines with 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere riser (2F) to save and use liquid metal + Heat and compress air with sunlight A vertical all-blade equipped with friction loss reducing means (3) for recovering heat and dividing and storing combustion gas heat pressure and mass pressure to drive each turbine + accelerating liquid metal with compressed air heat and mass Various energy conservation cycle coalescence engine with gravity solar heat turbines in 7 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere riser (2F) to save and use liquid metal + Heat and compress air with sunlight Eight stages of vertical rotor blade gravity solar heat turbines equipped with friction recovery means (3) for driving the turbines by recovering heat and dividing into combustion gas calorie pressure and mass pressure to drive each turbine + specific critical material acceleration Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+より重い物質を真空方向加速して発電量増大を摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けて1000倍発電量を狙う各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere riser (2F) to save and use liquid metal + Heat and compress air with sunlight Heat recovery and split storage of combustion gas into calorie pressure and mass pressure to drive each turbine + vertical movement with heavier substances accelerated in the vacuum direction to increase power generation and friction loss reduction means (3) Various energy storage cycle coalescing engines aiming at 1000 times the amount of power generation by installing wing gravity solar heat turbine in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere riser (2F) to save and use liquid metal + Heat and compress air with sunlight A vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for driving the turbines by recovering heat and dividing into combustion gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact 10 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere riser (2F) to save and use liquid metal + Heat and compress air with sunlight Vertical type rotor blade gravity solar heat turbine equipped with friction loss reducing means (3) for driving and recovering heat and dividing and storing the combustion gas into calorie pressure and mass pressure to drive each turbine + liquid metal (2E) Various energy storage cycle coalescing engines with one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase sphere riser (2F) to save and use liquid metal + Heat and compress air with sunlight A vertical all-blade equipped with friction loss reducing means (3) for recovering heat and dividing and storing combustion gas heat pressure and mass pressure to drive each turbine + accelerating liquid metal with compressed air heat and mass Various energy storage cycle coalescing engines with gravity solar turbines in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing and storing compressed air in calorie pressure and mass pressure to drive each turbine + Friction loss of specific material acceleration drive Various energy storage cycle coalescing engines provided with three-stage vertical rotor blade gravity solar turbines equipped with reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and heat recovery of air by sunlight and dividing and storing compressed air calorie pressure and mass pressure to drive each turbine + friction of accelerated acceleration of specific critical substances Various energy storage cycle coalescing engines provided with four stages of vertical rotor blade gravity solar turbines equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat with sunlight to collect and store compressed air in calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven friction Various energy storage cycle coalescing engines provided with 5 types of vertical rotor blade gravity solar turbines equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves compressed air by heating and compressing heat by sunlight and storing it separately in compressed air calorie pressure and mass pressure + Accelerates driving liquid metal (2E) Various energy storage cycle coalescence engines provided with 6-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + recovering heat by compressing heat with sunlight and storing it separately into compressed air calorie pressure and mass pressure to drive each turbine + liquid metal calorie and mass of compressed air Various energy storage cycle coalescing engines provided with 7-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) that is accelerated and driven by タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing and storing compressed air in calorie pressure and mass pressure to drive each turbine + Friction loss of specific material acceleration drive Various energy storage cycle coalescing engines provided with 8 types of vertical rotor blade gravity solar turbines equipped with reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing and storing compressed air in calorie pressure and mass pressure to drive each turbine + Friction loss of specific material acceleration drive Various energy conservation cycle coalescing engines provided with 9 stages of vertical all blade gravity solar turbines equipped with reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing and storing compressed air in calorie pressure and mass pressure to drive each turbine + Friction loss of specific material acceleration drive Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar turbines equipped with reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing and storing compressed air in calorie pressure and mass pressure to drive each turbine + Friction loss of specific material acceleration drive Various energy storage cycle coalescing engines provided with a vertical all blade gravity solar heat turbine equipped with a reduction means (3) in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing and storing compressed air in calorie pressure and mass pressure to drive each turbine + Friction loss of specific material acceleration drive Various energy storage cycle coalescing engines provided with two stages of vertical rotor blade gravity solar turbines equipped with reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and heat recovery of air by sunlight and dividing and storing compressed air calorie pressure and mass pressure to drive each turbine + friction of accelerated acceleration of specific critical substances Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar turbine equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and heat recovery of air by sunlight and dividing and storing compressed air calorie pressure and mass pressure to drive each turbine + friction of accelerated acceleration of specific critical substances Various energy storage cycle coalescing engines provided with four stages of vertical rotor blade gravity solar turbines equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and heat recovery of air by sunlight and dividing and storing compressed air calorie pressure and mass pressure to drive each turbine + friction of accelerated acceleration of specific critical substances Various energy storage cycle coalescing engines provided with 5 types of vertical rotor blade gravity solar turbines equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and heat recovery of air by sunlight and dividing and storing compressed air calorie pressure and mass pressure to drive each turbine + friction of accelerated acceleration of specific critical substances Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar turbines equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and heat recovery of air by sunlight and dividing and storing compressed air calorie pressure and mass pressure to drive each turbine + friction of accelerated acceleration of specific critical substances Various energy storage cycle coalescing engines provided with seven stages of vertical rotor blade gravity solar turbines equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat with sunlight to collect and store compressed air in calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven friction Various energy conservation cycle coalescing engines provided with 8 types of vertical rotor blade gravity solar turbines equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat with sunlight to collect and store compressed air in calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven friction Various energy conservation cycle coalescing engines provided with 9 types of vertical rotor blade gravity solar turbines equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat with sunlight to collect and store compressed air in calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven friction Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar turbines equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat with sunlight to collect and store compressed air in calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven friction Various energy storage cycle coalescing engines provided with a single-stage full blade gravity solar heat turbine equipped with loss reduction means (3) in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat with sunlight to collect and store compressed air in calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven friction Various energy storage cycle coalescing engines provided with two types of vertical rotor blade gravity solar turbines equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves compressed air by heating and compressing heat by sunlight and storing it separately in compressed air calorie pressure and mass pressure + Accelerates driving liquid metal (2E) Various energy conservation cycle coalescence engines provided with three stages of vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves compressed air by heating and compressing heat by sunlight and storing it separately in compressed air calorie pressure and mass pressure + Accelerates driving liquid metal (2E) Various energy storage cycle coalescing engines provided with four stages of vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves compressed air by heating and compressing heat by sunlight and storing it separately in compressed air calorie pressure and mass pressure + Accelerates driving liquid metal (2E) Various energy storage cycle coalescing engines provided with five stages of vertical-type rotor blade gravity solar heat turbines equipped with friction loss reducing means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves compressed air by heating and compressing heat by sunlight and storing it separately in compressed air calorie pressure and mass pressure + Accelerates driving liquid metal (2E) Various energy storage cycle coalescence engines provided with 6-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves compressed air by heating and compressing heat by sunlight and storing it separately in compressed air calorie pressure and mass pressure + Accelerates driving liquid metal (2E) Various energy storage cycle coalescing engines provided with seven stages of vertical all blade gravity solar turbines equipped with friction loss reducing means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + recovering heat by compressing heat with sunlight and storing it separately into compressed air calorie pressure and mass pressure to drive each turbine + liquid metal calorie and mass of compressed air Various energy storage cycle coalescing engines provided with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reducing means (3) that is accelerated and driven by タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + recovering heat by compressing heat with sunlight and storing it separately into compressed air calorie pressure and mass pressure to drive each turbine + liquid metal calorie and mass of compressed air Various energy storage cycle coalescing engines provided with 9-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) that is accelerated and driven by タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + recovering heat by compressing heat with sunlight and storing it separately into compressed air calorie pressure and mass pressure to drive each turbine + liquid metal calorie and mass of compressed air Various energy conservation cycle coalescence engines provided with 10 stages of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) that is accelerated and driven by タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + recovering heat by compressing heat with sunlight and storing it separately into compressed air calorie pressure and mass pressure to drive each turbine + liquid metal calorie and mass of compressed air Various energy storage cycle coalescing engines provided with a single-stage full-rotor-gravity solar solar turbine equipped with friction loss reducing means (3) that is accelerated and driven at a single stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + recovering heat by compressing heat with sunlight and storing it separately into compressed air calorie pressure and mass pressure to drive each turbine + liquid metal calorie and mass of compressed air Various energy storage cycle coalescence engines provided with two stages of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) that is accelerated and driven by タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Recovers heat by compressing heat with sunlight and saves it into combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) driven by specific material acceleration 竪Various energy storage cycle coalescing engines equipped with three-stage full blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heated and compressed heat recovered with sunlight and divided and stored in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) for acceleration of specific critical substances Various energy conservation cycle coalescing engine with vertical all blade gravity solar thermal turbine in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを設けたエンジン出力発生方法の各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Recovers heat by compressing heat with sunlight and stores it separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) driven by specific material rolling contact Various energy conservation cycle coalescence engines of the engine output generation method provided with a saddle type full blade gravity solar heat turbine provided with a friction loss reducing means (3) provided with a vertical type full blade gravity solar heat turbine in five stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) to accelerate the liquid metal (2E) Various energy storage cycle coalescing engines equipped with a 6-stage vertical all blade gravity solar thermal turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat is recovered by compressing heat by heating air with sunlight, and it is divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (acceleration drive of liquid metal with heat and mass of compressed air) 3) Various energy conservation cycle coalescence engines provided with 7-stage vertical rotor blade gravity solar turbines equipped with 3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight A vertical full-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for driving a specific turbine by accelerating and compressing heat and storing the combustion gas in a calorie pressure and a mass pressure to drive each turbine. Various energy storage cycle coalescing engine in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heated and compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical full rotor blade gravity solar turbine equipped with friction loss reducing means (3) for accelerating and driving specific critical substances Various energy conservation cycle coalescing engines with 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) for driving the respective turbines by recovering the heat by compressing heat and dividing and storing the combustion gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact Various energy conservation cycle coalescing engines with 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Vertically moving blade gravity equipped with friction loss reducing means (3) for driving the respective turbines by accelerating and compressing the heat by compressing and recovering the heat and compressing and storing the combustion gas in calorie pressure and mass pressure and driving the respective turbines Various energy storage cycle coalescing engines with solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Recovers heat and compression heat and stores it separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with two stages of moving blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divided and stored gas calorie pressure and mass pressure to drive each turbine + various types of energy provided in 3 stages with vertical rotor blade gravity solar turbine with friction loss reduction means (3) driven by specific material acceleration Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divided and stored gas calorie pressure and mass pressure to drive each turbine + various types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) that accelerates driving of specific critical substances by acceleration Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divided and stored in gas calorie pressure and mass pressure, each turbine is driven + various critical material rolling contact driven friction loss reduction means (3) equipped with a vertical all blade gravity solar thermal turbine provided in 5 stages Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn A 6-stage vertical rotor blade gravity solar thermal turbine equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) by driving each turbine by dividing it into gas calorific pressure and mass pressure Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn 7 type vertical rotor blade gravity solar turbine equipped with friction loss reducing means (3) for driving each turbine by dividing and storing gas calorie pressure and mass pressure + accelerating liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight A vertical full-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for driving a specific turbine by accelerating and compressing heat and storing the combustion gas in a calorie pressure and a mass pressure to drive each turbine. Various energy storage cycle coalescing engine in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heated and compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical full rotor blade gravity solar turbine equipped with friction loss reducing means (3) for accelerating and driving specific critical substances Various energy conservation cycle coalescing engines with 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) for driving the respective turbines by recovering the heat by compressing heat and dividing and storing the combustion gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact Various energy conservation cycle coalescing engines with 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Vertically moving blade gravity equipped with friction loss reducing means (3) for driving the respective turbines by accelerating and compressing the heat by compressing and recovering heat and compressing and storing the combustion gas in calorie pressure and mass pressure and driving the respective turbines + 2E Various energy storage cycle coalescing engines with solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Recovers heat and compression heat and stores it separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with two stages of moving blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescence engine provided with a three-stage vertical rotor blade gravity solar turbine equipped with driving friction loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines provided with four-stage vertical rotor blade gravity solar turbines equipped with acceleration drive friction loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with contact-driven friction loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar thermal turbines equipped with friction loss reducing means (3) for accelerating drive). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy conservation cycle coalescing engines provided with seven stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) that is accelerated by air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Recovers heat by compressing heat with sunlight and saves it into combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) driven by specific material acceleration 竪Various energy conservation cycle coalescing engine with a type full blade gravity solar thermal turbine in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heated and compressed heat recovered with sunlight and divided and stored in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) for acceleration of specific critical substances Various energy storage cycle coalescing engine with vertical all blade gravity solar turbines in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Recovers heat by compressing heat with sunlight and stores it separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) driven by specific material rolling contact Various energy storage cycle coalescing engine with vertical all blade gravity solar thermal turbines in 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) to accelerate the liquid metal (2E) Various energy storage cycle coalescing engines equipped with a vertical all blade gravity solar thermal turbine equipped in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat is recovered by compressing heat by heating air with sunlight, and it is divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (acceleration drive of liquid metal with heat and mass of compressed air) 3) Various energy storage cycle coalescing engines provided with two types of vertical rotor blade gravity solar turbines equipped with 3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight A vertical full-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for driving a specific turbine by accelerating and compressing heat and storing the combustion gas in a calorie pressure and a mass pressure to drive each turbine. Various energy storage cycle coalescing engine in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heated and compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical full rotor blade gravity solar turbine equipped with friction loss reducing means (3) for accelerating and driving specific critical substances Various energy conservation cycle coalescing engine with 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) for driving the respective turbines by recovering the heat by compressing heat and dividing and storing the combustion gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact Various energy conservation cycle coalescing engine with 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Vertically moving blade gravity equipped with friction loss reducing means (3) for driving the respective turbines by accelerating and compressing the heat by compressing and recovering heat and compressing and storing the combustion gas in calorie pressure and mass pressure and driving the respective turbines + 2E Various energy storage cycle coalescing engines with solar turbines in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Recovers heat and compression heat and stores it separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with 7-stage rotor blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divided and stored in gas calorie pressure and mass pressure to drive each turbine + various energy with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by specific material acceleration Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+等に分割保存した圧力で加速+より重い物質を真空方向加速してエンジン出力増大を燃焼ガス速度狙う摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Equipment method to make all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored + etc. + Heavier material Various energy storage cycle coalescing engines provided with 9-stage vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating the engine in the vacuum direction and aiming to increase engine output by increasing the combustion gas speed. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divided and stored gas calorie pressure and mass pressure to drive each turbine + various kinds of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material rolling contact drive Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn A vertical type full-blade gravity solar turbine equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) is provided in a single stage to drive each turbine by dividing it into gas calorie pressure and mass pressure. Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn 2 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for driving each turbine by dividing and storing gas calorie pressure and mass pressure + accelerating liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight A vertical full-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for driving a specific turbine by accelerating and compressing heat and storing the combustion gas in a calorie pressure and a mass pressure to drive each turbine. Various energy storage cycle coalescing engine in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heated and compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical full rotor blade gravity solar turbine equipped with friction loss reducing means (3) for accelerating and driving specific critical substances Various energy conservation cycle coalescing engine with 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) for driving the respective turbines by recovering the heat by compressing heat and dividing and storing the combustion gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact Various energy conservation cycle coalescing engine with 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Vertically moving blade gravity equipped with friction loss reducing means (3) for driving the respective turbines by accelerating and compressing the heat by compressing and recovering heat and compressing and storing the combustion gas in calorie pressure and mass pressure and driving the respective turbines + 2E Various energy storage cycle coalescing engines with solar turbines in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Recovers heat and compression heat and stores it separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with 7-stage rotor blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines provided with eight stages of vertical rotor blade gravity solar turbines equipped with driving friction loss reducing means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines provided with 9-stage vertical rotor blade gravity solar turbines equipped with acceleration drive friction loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy conservation cycle coalescence engines provided with 10 stages of vertical all blade gravity solar thermal turbines equipped with contact-driven friction loss reducing means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines provided with a single-stage full blade gravity solar turbine equipped with friction loss reducing means (3) for accelerating drive). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy conservation cycle coalescing engines provided with two-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) that is accelerated by air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Recovers heat by compressing heat with sunlight and saves it into combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) driven by specific material acceleration 竪Various energy storage cycle coalescing engines equipped with three-stage full blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heated and compressed heat recovered with sunlight and divided and stored in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) for acceleration of specific critical substances Various energy conservation cycle coalescing engine with vertical all blade gravity solar thermal turbine in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Recovers heat by compressing heat with sunlight and stores it separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) driven by specific material rolling contact Various energy storage cycle coalescing engine with vertical all blade gravity solar thermal turbine in 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) to accelerate the liquid metal (2E) Various energy storage cycle coalescing engines equipped with a 6-stage vertical all blade gravity solar thermal turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat is recovered by compressing heat by heating air with sunlight, and it is divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (acceleration drive of liquid metal with heat and mass of compressed air) 3) Various energy conservation cycle coalescence engines provided with 7-stage vertical rotor blade gravity solar turbines equipped with 3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight A vertical full-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for driving a specific turbine by accelerating and compressing heat and storing the combustion gas in a calorie pressure and a mass pressure to drive each turbine. Various energy storage cycle coalescing engine in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heated and compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical full rotor blade gravity solar turbine equipped with friction loss reducing means (3) for accelerating and driving specific critical substances Various energy conservation cycle coalescing engines with 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) for driving the respective turbines by recovering the heat by compressing heat and dividing and storing the combustion gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact Various energy conservation cycle coalescing engines with 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Vertically moving blade gravity equipped with friction loss reducing means (3) for driving the respective turbines by accelerating and compressing the heat by compressing and recovering the heat and compressing and storing the combustion gas in calorie pressure and mass pressure and driving the respective turbines Various energy storage cycle coalescing engines with solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Recovers heat and compression heat and stores it separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with two stages of moving blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divided and stored gas calorie pressure and mass pressure to drive each turbine + various types of energy provided in 3 stages with vertical rotor blade gravity solar turbine with friction loss reduction means (3) driven by specific material acceleration Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divided and stored gas calorie pressure and mass pressure to drive each turbine + various types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) that accelerates driving of specific critical substances by acceleration Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divided and stored in gas calorie pressure and mass pressure, each turbine is driven + various critical material rolling contact driven friction loss reduction means (3) equipped with a vertical all blade gravity solar thermal turbine provided in 5 stages Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn A 6-stage vertical rotor blade gravity solar thermal turbine equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) by driving each turbine by dividing it into gas calorific pressure and mass pressure Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn 7 type vertical rotor blade gravity solar turbine equipped with friction loss reducing means (3) for driving each turbine by dividing and storing gas calorie pressure and mass pressure + accelerating liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight A vertical full-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for driving a specific turbine by accelerating and compressing heat and storing the combustion gas in a calorie pressure and a mass pressure to drive each turbine. Various energy storage cycle coalescing engine in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heated and compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical full rotor blade gravity solar turbine equipped with friction loss reducing means (3) for accelerating and driving specific critical substances Various energy conservation cycle coalescing engines with 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) for driving the respective turbines by recovering the heat by compressing heat and dividing and storing the combustion gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact Various energy conservation cycle coalescing engines with 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Vertically moving blade gravity equipped with friction loss reducing means (3) for driving the respective turbines by accelerating and compressing the heat by compressing and recovering heat and compressing and storing the combustion gas in calorie pressure and mass pressure and driving the respective turbines + 2E Various energy storage cycle coalescing engines with solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Recovers heat and compression heat and stores it separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with two stages of moving blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescence engine provided with a three-stage vertical rotor blade gravity solar turbine equipped with driving friction loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines provided with four-stage vertical rotor blade gravity solar turbines equipped with acceleration drive friction loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with contact-driven friction loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar thermal turbines equipped with friction loss reducing means (3) for accelerating drive). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy conservation cycle coalescing engines provided with seven stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) that is accelerated by air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Recovers heat by compressing heat with sunlight and saves it into combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) driven by specific material acceleration 竪Various energy conservation cycle coalescing engine with a type full blade gravity solar thermal turbine in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heated and compressed heat recovered with sunlight and divided and stored in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) for acceleration of specific critical substances Various energy storage cycle coalescing engine with vertical all blade gravity solar turbines in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Recovers heat by compressing heat with sunlight and stores it separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) driven by specific material rolling contact Various energy storage cycle coalescing engine with vertical all blade gravity solar thermal turbines in 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) to accelerate the liquid metal (2E) Various energy storage cycle coalescing engines equipped with a vertical all blade gravity solar thermal turbine equipped in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat is recovered by compressing heat by heating air with sunlight, and it is divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (acceleration drive of liquid metal with heat and mass of compressed air) 3) Various energy storage cycle coalescing engines provided with two types of vertical rotor blade gravity solar turbines equipped with 3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight A vertical full-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for driving a specific turbine by accelerating and compressing heat and storing the combustion gas in a calorie pressure and a mass pressure to drive each turbine. Various energy storage cycle coalescing engine in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heated and compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical full rotor blade gravity solar turbine equipped with friction loss reducing means (3) for accelerating and driving specific critical substances Various energy conservation cycle coalescing engine with 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) for driving the respective turbines by recovering the heat by compressing heat and dividing and storing the combustion gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact Various energy conservation cycle coalescing engine with 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Vertically moving blade gravity equipped with friction loss reducing means (3) for driving the respective turbines by accelerating and compressing the heat by compressing and recovering heat and compressing and storing the combustion gas in calorie pressure and mass pressure and driving the respective turbines + 2E Various energy storage cycle coalescing engines with solar turbines in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Recovers heat and compression heat and stores it separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with 7-stage rotor blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divided and stored in gas calorie pressure and mass pressure to drive each turbine + various energy with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by specific material acceleration Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divided and stored gas calorie pressure and mass pressure to drive each turbine + various types of vertical rotor blade gravity solar turbines with 9 stages equipped with friction loss reduction means (3) for acceleration of specific critical substances by acceleration Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divided and stored gas calorie pressure and mass pressure to drive each turbine + various kinds of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material rolling contact drive Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn A vertical type full-blade gravity solar turbine equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) is provided in a single stage to drive each turbine by dividing it into gas calorie pressure and mass pressure. Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn 2 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for driving each turbine by dividing and storing gas calorie pressure and mass pressure + accelerating liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight A vertical full-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for driving a specific turbine by accelerating and compressing heat and storing the combustion gas in a calorie pressure and a mass pressure to drive each turbine. Various energy storage cycle coalescing engine in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heated and compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical full rotor blade gravity solar turbine equipped with friction loss reducing means (3) for accelerating and driving specific critical substances Various energy conservation cycle coalescing engine with 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) for driving the respective turbines by recovering the heat by compressing heat and dividing and storing the combustion gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact Various energy conservation cycle coalescing engine with 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Vertically moving blade gravity equipped with friction loss reducing means (3) for driving the respective turbines by accelerating and compressing the heat by compressing and recovering heat and compressing and storing the combustion gas in calorie pressure and mass pressure and driving the respective turbines + 2E Various energy storage cycle coalescing engines with solar turbines in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Recovers heat and compression heat and stores it separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with 7-stage rotor blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines provided with eight stages of vertical rotor blade gravity solar turbines equipped with driving friction loss reducing means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines provided with 9-stage vertical rotor blade gravity solar turbines equipped with acceleration drive friction loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy conservation cycle coalescence engines provided with 10 stages of vertical all blade gravity solar thermal turbines equipped with contact-driven friction loss reducing means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines provided with a single-stage full blade gravity solar turbine equipped with friction loss reducing means (3) for accelerating drive). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy conservation cycle coalescing engines provided with two-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) that is accelerated by air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Recovers heat by compressing heat with sunlight and saves it into combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) driven by specific material acceleration 竪Various energy storage cycle coalescing engines equipped with three-stage full blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heated and compressed heat recovered with sunlight and divided and stored in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) for acceleration of specific critical substances Various energy conservation cycle coalescing engine with vertical all blade gravity solar thermal turbine in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Recovers heat by compressing heat with sunlight and stores it separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) driven by specific material rolling contact Various energy storage cycle coalescing engine with vertical all blade gravity solar thermal turbine in 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) to accelerate the liquid metal (2E) Various energy storage cycle coalescing engines equipped with a 6-stage vertical all blade gravity solar thermal turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat is recovered by compressing heat by heating air with sunlight, and it is divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (acceleration drive of liquid metal with heat and mass of compressed air) 3) Various energy conservation cycle coalescence engines provided with 7-stage vertical rotor blade gravity solar turbines equipped with 3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight A vertical full-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for driving a specific turbine by accelerating and compressing heat and storing the combustion gas in a calorie pressure and a mass pressure to drive each turbine. Various energy storage cycle coalescing engine in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heated and compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical full rotor blade gravity solar turbine equipped with friction loss reducing means (3) for accelerating and driving specific critical substances Various energy conservation cycle coalescing engines with 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) for driving the respective turbines by recovering the heat by compressing heat and dividing and storing the combustion gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact Various energy conservation cycle coalescing engines with 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Vertically moving blade gravity equipped with friction loss reducing means (3) for driving the respective turbines by accelerating and compressing the heat by compressing and recovering the heat and compressing and storing the combustion gas in calorie pressure and mass pressure and driving the respective turbines Various energy storage cycle coalescing engines with solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Recovers heat and compression heat and stores it separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with two stages of moving blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Various types of energy provided in three stages with vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for driving each turbine by dividing and storing gas calorie pressure and mass pressure + specific critical material acceleration Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divided and stored gas calorie pressure and mass pressure to drive each turbine + various types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) that accelerates driving of specific critical substances by acceleration Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divided and stored in gas calorie pressure and mass pressure, each turbine is driven + various critical material rolling contact driven friction loss reduction means (3) equipped with a vertical all blade gravity solar thermal turbine provided in 5 stages Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn A 6-stage vertical rotor blade gravity solar thermal turbine equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) by driving each turbine by dividing it into gas calorific pressure and mass pressure Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn 7 type vertical rotor blade gravity solar turbine equipped with friction loss reducing means (3) for driving each turbine by dividing and storing gas calorie pressure and mass pressure + accelerating liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight A vertical full-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for driving a specific turbine by accelerating and compressing heat and storing the combustion gas in a calorie pressure and a mass pressure to drive each turbine. Various energy storage cycle coalescing engine in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heated and compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical full rotor blade gravity solar turbine equipped with friction loss reducing means (3) for accelerating and driving specific critical substances Various energy conservation cycle coalescing engines with 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight A vertical full-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for driving the turbines by recovering the heat and compression heat and dividing and storing the combustion gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact Various energy conservation cycle coalescing engines with 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Vertically moving blade gravity equipped with friction loss reducing means (3) for driving the respective turbines by accelerating and compressing the heat by compressing and recovering heat and compressing and storing the combustion gas in calorie pressure and mass pressure and driving the respective turbines + 2E Various energy storage cycle coalescing engines with solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Recovers heat and compression heat and stores it separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with two stages of moving blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescence engine provided with a three-stage vertical rotor blade gravity solar turbine equipped with driving friction loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines provided with four-stage vertical rotor blade gravity solar turbines equipped with acceleration drive friction loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with contact-driven friction loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar thermal turbines equipped with friction loss reducing means (3) for accelerating drive). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy conservation cycle coalescing engines provided with seven stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) that is accelerated by air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Recovers heat by compressing heat with sunlight and saves it into combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) driven by specific material acceleration 竪Various energy conservation cycle coalescing engine with a type full blade gravity solar thermal turbine in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heated and compressed heat recovered with sunlight and divided and stored in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) for acceleration of specific critical substances Various energy storage cycle coalescing engine with vertical all blade gravity solar turbines in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Recovers heat by compressing heat with sunlight and stores it separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) driven by specific material rolling contact Various energy storage cycle coalescing engine with vertical all blade gravity solar thermal turbines in 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) to accelerate the liquid metal (2E) Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat is recovered by compressing heat by heating air with sunlight, and it is divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (acceleration drive of liquid metal with heat and mass of compressed air) 3) Various energy storage cycle coalescing engines provided with two types of vertical rotor blade gravity solar turbines equipped with 3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight A vertical full-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for driving a specific turbine by accelerating and compressing heat and storing the combustion gas in a calorie pressure and a mass pressure to drive each turbine. Various energy storage cycle coalescing engine in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heated and compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical full rotor blade gravity solar turbine equipped with friction loss reducing means (3) for accelerating and driving specific critical substances Various energy conservation cycle coalescing engine with 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight A vertical full-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for driving the turbines by recovering the heat and compression heat and dividing and storing the combustion gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact Various energy conservation cycle coalescing engine with 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Vertically moving blade gravity equipped with friction loss reducing means (3) for driving the respective turbines by accelerating and compressing the heat by compressing and recovering heat and compressing and storing the combustion gas in calorie pressure and mass pressure and driving the respective turbines + 2E Various energy storage cycle coalescing engines with solar turbines in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Recovers heat and compression heat and stores it separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with 7-stage rotor blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divided and stored gas calorie pressure and mass pressure to drive each turbine + various types of energy provided with 8 types of vertical rotor blade gravity solar thermal turbines equipped with friction loss reducing means (3) driven by specific material acceleration Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divided and stored gas calorie pressure and mass pressure to drive each turbine + various types of vertical rotor blade gravity solar turbines with 9 stages equipped with friction loss reduction means (3) for acceleration of specific critical substances by acceleration Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn Divided and stored gas calorie pressure and mass pressure to drive each turbine + various kinds of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material rolling contact drive Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn A vertical type full-blade gravity solar turbine equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) is provided in a single stage to drive each turbine by dividing it into gas calorie pressure and mass pressure. Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method that uses all turbine blades + Liquid ball is stored and lifted by the rising sphere lift device (2F) + Air is heated and compressed with sunlight to recover and burn 2 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for driving each turbine by dividing and storing gas calorie pressure and mass pressure + accelerating liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight A vertical full-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for driving a specific turbine by accelerating and compressing heat and storing the combustion gas in a calorie pressure and a mass pressure to drive each turbine. Various energy storage cycle coalescing engine in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Heated and compressed heat is recovered and divided into combustion gas calorie pressure and mass pressure to drive each turbine + vertical full rotor blade gravity solar turbine equipped with friction loss reducing means (3) for accelerating and driving specific critical substances Various energy conservation cycle coalescing engine with 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) for driving the respective turbines by recovering the heat by compressing heat and dividing and storing the combustion gas calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact Various energy conservation cycle coalescing engine with 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Vertically moving blade gravity equipped with friction loss reducing means (3) for driving the respective turbines by accelerating and compressing the heat by compressing and recovering heat and compressing and storing the combustion gas in calorie pressure and mass pressure and driving the respective turbines + 2E Various energy storage cycle coalescing engines with solar turbines in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas heat quantity and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Use air with sunlight Recovers heat and compression heat and stores it separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with 7-stage rotor blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising ball lift device (2F) + Solar heat is compressed and heat is recovered by sunlight and stored separately into combustion gas calorific pressure and mass pressure to drive each turbine + Specific material acceleration Various energy storage cycle coalescing engines provided with eight stages of vertical rotor blade gravity solar turbines equipped with driving friction loss reducing means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Increase and store liquid metal in the rising sphere riser (2F) + use heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + specific critical substances Various energy storage cycle coalescing engines provided with 9-stage vertical rotor blade gravity solar turbines equipped with acceleration drive friction loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored using the rising ball lift device (2F) + Solar heat is recovered by heating, compression and heat recovery, and divided combustion gas calorie pressure and mass pressure to drive each turbine + Specific critical material rolling Various energy conservation cycle coalescence engines provided with 10 stages of vertical all blade gravity solar thermal turbines equipped with contact-driven friction loss reducing means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is used for ascending and storing by the rising sphere rising device (2F) + Heat and compression heat recovery is performed with sunlight, and the gas is divided into combustion gas calorie pressure and mass pressure to drive each turbine + Liquid metal (2E Various energy storage cycle coalescing engines provided with a single-stage full blade gravity solar turbine equipped with friction loss reducing means (3) for accelerating drive). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Liquid metal is lifted and stored in the rising sphere riser (2F) + Solar heat is recovered by heating, compression and heat recovery, and combustion gas calorie pressure and mass pressure are stored separately to drive each turbine + Liquid metal is compressed Various energy conservation cycle coalescing engines provided with two-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) that is accelerated by air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Recovers heat by compressing heat with sunlight and saves it into combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) driven by specific material acceleration 竪Various energy storage cycle coalescing engines equipped with three-stage full blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+より重い物質を真空方向加速して発電量増大を摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けて1000倍発電量を狙う各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery from sunlight with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + Accelerate heavier substances in the vacuum direction to increase power generation and reduce friction loss Various energy storage cycle coalescing engines aiming for 1000 times power generation by providing four types of vertical rotor blade gravity solar turbines equipped with (3) in four stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Recovers heat by compressing heat with sunlight and stores it separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) driven by specific material rolling contact Various energy storage cycle coalescing engine with vertical all blade gravity solar thermal turbine in 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Heat and compression heat recovery with sunlight and store separately in combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (3) to accelerate the liquid metal (2E) Various energy storage cycle coalescing engines equipped with a 6-stage vertical all blade gravity solar thermal turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Heat is recovered by compressing heat by heating air with sunlight, and it is divided and stored into combustion gas calorie pressure and mass pressure to drive each turbine + Friction loss reduction means (acceleration drive of liquid metal with heat and mass of compressed air) 3) Various energy conservation cycle coalescence engines provided with 7-stage vertical rotor blade gravity solar turbines equipped with 3). タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by three types of turbines + Configuration and method for accelerating the output sphere (2E) + + Liquid metal is raised and stored by using the sphere riser (2F) + Heat is compressed and heat recovered by sunlight A vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for driving each turbine by dividing and storing the combustion gas calorie pressure and mass pressure and driving each turbine in 8 stages is provided. Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Configuration and method for accelerating the output sphere (2E) + Increased storage of liquid metal with the sphere riser (2F) The combustion gas calorie pressure and mass pressure are divided and stored to drive each turbine. The 9-stage vertical rotor blade gravity solar thermal turbine equipped with friction loss reduction means (3) that accelerates the friction of specific critical substances by acceleration. Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Configuration and method for accelerating the output sphere (2E) + Increased storage of liquid metal with the sphere riser (2F) A vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for driving the turbines by dividing the combustion gas into calorific pressure and mass pressure to drive each turbine + specific critical material rolling contact is provided in 10 stages Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Configuration and method for accelerating the output sphere (2E) + Increased storage of liquid metal with the sphere riser (2F) One stage of a vertical rotor blade gravity solar turbine equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) by separately storing the combustion gas in calorie pressure and mass pressure and driving each turbine Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Configuration and method for accelerating the output sphere (2E) + Increased storage of liquid metal with the sphere riser (2F) Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass by separately storing combustion gas calorie pressure and mass pressure and driving each turbine Various energy storage cycle coalescing engines with two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法++増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by three types of turbines + Configuration and method for accelerating the output sphere (2E) + + Liquid metal is raised and stored by using the sphere riser (2F) + Heat is compressed and heat recovered by sunlight A vertical all-blade gravity solar turbine equipped with a friction loss reducing means (3) for driving each turbine by dividing and storing the combustion gas calorie pressure and mass pressure and driving each turbine in three stages is provided in three stages Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Configuration and method for accelerating the output sphere (2E) + Increased storage of liquid metal with the sphere riser (2F) The combustion gas calorie pressure and mass pressure are divided and stored to drive each turbine + 4 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates the acceleration of specific critical substances Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Configuration and method for accelerating the output sphere (2E) + Increased storage of liquid metal with the sphere riser (2F) A vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for driving each turbine by dividing it into combustion gas calorie pressure and mass pressure and driving specific turbines is provided in five stages. Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Configuration and method for accelerating the output sphere (2E) + Increased storage of liquid metal with the sphere riser (2F) 6 stages of a vertical all blade gravity solar thermal turbine equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) by separately storing the combustion gas in calorie pressure and mass pressure and driving each turbine Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して燃焼ガス熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Configuration and method for accelerating the output sphere (2E) + Increased storage of liquid metal with the sphere riser (2F) Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass by separately storing combustion gas calorie pressure and mass pressure and driving each turbine Various energy conservation cycle coalescing engine with 7 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing and storing compressed air in calorie pressure and mass pressure to drive each turbine + Friction loss of specific material acceleration drive Various energy storage cycle coalescing engines provided with 8 types of vertical rotor blade gravity solar turbines equipped with reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and heat recovery of air by sunlight and dividing and storing compressed air calorie pressure and mass pressure to drive each turbine + friction of accelerated acceleration of specific critical substances Various energy conservation cycle coalescing engines provided with 9 types of vertical rotor blade gravity solar turbines equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat with sunlight to collect and store compressed air in calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven friction Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar turbines equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves compressed air by heating and compressing heat by sunlight and storing it separately in compressed air calorie pressure and mass pressure + Accelerates driving liquid metal (2E) Various energy storage cycle coalescing engines provided with a single-stage full rotor blade gravity solar heat turbine equipped with a friction loss reducing means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + recovering heat by compressing heat with sunlight and storing it separately into compressed air calorie pressure and mass pressure to drive each turbine + liquid metal calorie and mass of compressed air Various energy storage cycle coalescence engines provided with two stages of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) that is accelerated and driven by タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing and storing compressed air in calorie pressure and mass pressure to drive each turbine + Friction loss of specific material acceleration drive Various energy storage cycle coalescing engines provided with three-stage vertical rotor blade gravity solar turbines equipped with reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing and storing compressed air in calorie pressure and mass pressure to drive each turbine + Friction loss of specific material acceleration drive Various energy storage cycle coalescing engines provided with four-stage vertical rotor blade gravity solar turbines equipped with reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing and storing compressed air in calorie pressure and mass pressure to drive each turbine + Friction loss of specific material acceleration drive Various energy storage cycle coalescing engines provided with 5 types of vertical rotor blade gravity solar turbines equipped with reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing and storing compressed air in calorie pressure and mass pressure to drive each turbine + Friction loss of specific material acceleration drive Various energy storage cycle coalescence engine provided with 6-stage vertical rotor blade gravity solar heat turbine equipped with reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat from sunlight to recover and compressing and storing compressed air in calorie pressure and mass pressure to drive each turbine + Friction loss of specific material acceleration drive Various energy storage cycle coalescing engines provided with seven stages of vertical rotor blade gravity solar turbines equipped with reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and heat recovery of air by sunlight and dividing and storing compressed air calorie pressure and mass pressure to drive each turbine + friction of accelerated acceleration of specific critical substances Various energy conservation cycle coalescing engines provided with 8 types of vertical rotor blade gravity solar turbines equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and heat recovery of air by sunlight and dividing and storing compressed air calorie pressure and mass pressure to drive each turbine + friction of accelerated acceleration of specific critical substances Various energy conservation cycle coalescing engines provided with 9 types of vertical rotor blade gravity solar turbines equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and heat recovery of air by sunlight and dividing and storing compressed air calorie pressure and mass pressure to drive each turbine + friction of accelerated acceleration of specific critical substances Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar turbines equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and heat recovery of air by sunlight and dividing and storing compressed air calorie pressure and mass pressure to drive each turbine + friction of accelerated acceleration of specific critical substances Various energy storage cycle coalescing engines provided with a single-stage full blade gravity solar heat turbine equipped with loss reduction means (3) in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and heat recovery of air by sunlight and dividing and storing compressed air calorie pressure and mass pressure to drive each turbine + friction of accelerated acceleration of specific critical substances Various energy storage cycle coalescing engines provided with two types of vertical rotor blade gravity solar turbines equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat with sunlight to collect and store compressed air in calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven friction Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar turbine equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat with sunlight to collect and store compressed air in calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven friction Various energy storage cycle coalescing engines provided with four stages of vertical rotor blade gravity solar turbines equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat with sunlight to collect and store compressed air in calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven friction Various energy storage cycle coalescing engines provided with 5 types of vertical rotor blade gravity solar turbines equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat with sunlight to collect and store compressed air in calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven friction Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar turbines equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + heating and compressing heat with sunlight to collect and store compressed air in calorie pressure and mass pressure to drive each turbine + specific critical material rolling contact driven friction Various energy storage cycle coalescing engines provided with seven stages of vertical rotor blade gravity solar turbines equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves compressed air by heating and compressing heat by sunlight and storing it separately in compressed air calorie pressure and mass pressure + Accelerates driving liquid metal (2E) Various energy storage cycle coalescing engines provided with eight stages of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves compressed air by heating and compressing heat by sunlight and storing it separately in compressed air calorie pressure and mass pressure + Accelerates driving liquid metal (2E) Various energy storage cycle coalescing engines provided with 9-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves compressed air by heating and compressing heat by sunlight and storing it separately in compressed air calorie pressure and mass pressure + Accelerates driving liquid metal (2E) Various energy storage cycle coalescing engines provided with 10-stage vertical rotor blade gravity solar heat turbines equipped with a friction loss reducing means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves compressed air by heating and compressing heat by sunlight and storing it separately in compressed air calorie pressure and mass pressure + Accelerates driving liquid metal (2E) Various energy storage cycle coalescing engines provided with a single-stage full rotor blade gravity solar heat turbine equipped with a friction loss reducing means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storage + collects and saves compressed air by heating and compressing heat by sunlight and storing it separately in compressed air calorie pressure and mass pressure + Accelerates driving liquid metal (2E) Various energy storage cycle coalescing engines provided with two-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + recovering heat by compressing heat with sunlight and storing it separately into compressed air calorie pressure and mass pressure to drive each turbine + liquid metal calorie and mass of compressed air Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar turbine equipped with friction loss reducing means (3) that is accelerated and driven by タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + recovering heat by compressing heat with sunlight and storing it separately into compressed air calorie pressure and mass pressure to drive each turbine + liquid metal calorie and mass of compressed air Various energy storage cycle coalescing engines provided with four stages of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) that is accelerated and driven by タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + recovering heat by compressing heat with sunlight and storing it separately into compressed air calorie pressure and mass pressure to drive each turbine + liquid metal calorie and mass of compressed air Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reducing means (3) that is accelerated and driven. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + recovering heat by compressing heat with sunlight and storing it separately into compressed air calorie pressure and mass pressure to drive each turbine + liquid metal calorie and mass of compressed air Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) that is accelerated and driven. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + recovering heat by compressing heat with sunlight and storing it separately into compressed air calorie pressure and mass pressure to drive each turbine + liquid metal calorie and mass of compressed air Various energy storage cycle coalescing engines provided with 7-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) that is accelerated and driven by タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat with sunlight, and collecting and storing compressed air in calorie pressure and mass pressure to drive each turbine + Friction aiming at the same water maximum power generation Various energy conservation cycle coalescing engines provided with 8 types of vertical rotor blade gravity solar turbines equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat with sunlight, and collecting and storing compressed air in calorie pressure and mass pressure to drive each turbine + Friction aiming at the same water maximum power generation Various energy conservation cycle coalescing engines provided with 9 types of vertical rotor blade gravity solar turbines equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat with sunlight, and collecting and storing compressed air in calorie pressure and mass pressure to drive each turbine + Friction aiming at the same water maximum power generation Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar turbines equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat with sunlight, and collecting and storing compressed air in calorie pressure and mass pressure to drive each turbine + Friction aiming at the same water maximum power generation Various energy storage cycle coalescing engines provided with a single-stage full blade gravity solar heat turbine equipped with loss reduction means (3) in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+太陽光で空気を加熱圧縮熱回収して圧縮空気熱量圧力と質量圧力に分割保存して夫々のタービンを駆動する+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses liquid metal ascending and storing + Heating and compressing heat with sunlight, and collecting and storing compressed air in calorie pressure and mass pressure to drive each turbine + Friction aiming at the same water maximum power generation Various energy storage cycle coalescing engines provided with two types of vertical rotor blade gravity solar turbines equipped with loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase ball rise as much as possible with increase ball lift device (2F) + Increase ball lift device (2F) Uses liquid metal ascending and conserving + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) driven by specific material acceleration Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase ball rise as much as possible with increase ball lift device (2F) + Increase ball lift device (2F) Liquid metal is used for ascending storage + accelerating with pressure that is divided and stored in calorie velocity and mass velocity + specific critical material accelerated friction loss reduction means (3) equipped with a vertical rotor blade gravity solar heat turbine with 4 stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase ball rise as much as possible with increase ball lift device (2F) + Increase ball lift device (2F) Uses ascending and storing liquid metal + accelerating with pressure divided and stored in calorie velocity and mass velocity + 5 stages of vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase ball rise as much as possible with increase ball lift device (2F) + Increase ball lift device (2F) Ascending and using liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Accelerating liquid metal (2E) 6 Various energy conservation cycle coalescence engine installed in the stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas heat quantity and mass + Increase ball rise as much as possible with increase ball lift device (2F) + Increase ball lift device (2F) Uplift storage using liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertical moving blade gravity solar heat equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with 7 stages of turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engine equipped with 4 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) that accelerates friction of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + A combination of various energy conservation cycle engines equipped with 5 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engines provided with 6-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescing engines provided with seven stages of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engines with bladed gravity solar turbines in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy storage cycle coalescing engine with bladed gravity solar turbines in 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescing engines with all-blade gravity solar turbines in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with 7-stage vertical all blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by specific material acceleration Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 9-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) to accelerate acceleration of specific critical substances Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 10-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal (2E) in one stage Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie speed and mass speed + vertical type full-blade gravity solar heat turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass in two stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する++増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by three types of turbines + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate and drive the liquid lead alloy downward ++ Increased storage of the liquid metal using an increasing ball rising device (2F) + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Combined engine with various energy conservation cycles equipped with three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration of specific material acceleration . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する++増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by three types of turbines + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate and drive the liquid lead alloy downward ++ Increased storage of the liquid metal using an increasing ball rising device (2F) + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Combined with various energy conservation cycles with 4 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving specific critical substances organ. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する++増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by three types of turbines + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate and drive the liquid lead alloy downward ++ Increased storage of the liquid metal using an increasing ball rising device (2F) + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Combined various energy conservation cycle with 5 types of vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) driven by specific material rolling contact organ. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する++増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by three types of turbines + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate and drive the liquid lead alloy downward ++ Increased storage of the liquid metal using an increasing ball rising device (2F) + Acceleration with pressure divided and stored in calorie velocity and mass velocity + various energy conservation with 6-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal (2E) Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する++増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine driven by three types of turbines + turbines with alternating rotation directions on the horizontal axis (1h) to accelerate and drive the liquid lead alloy downward ++ Increased storage of the liquid metal using an increasing ball rising device (2F) + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar turbines with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass are provided in 7 stages Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+等に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Power generation method for all turbine blades + Increased storage and use of liquid metal with an increasing sphere climbing device (2F) + Acceleration with divided and stored pressure + Specific critical substances Various energy conservation cycle coalescence engine provided with 8 stages of vertical rotor blade gravity solar turbines equipped with acceleration drive friction loss reduction means (3). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescence engine equipped with 9-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 10-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engine provided with a vertical all blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for accelerating and driving the liquid metal (2E) in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescing engines provided with two stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engine equipped with a 7-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating in the rotational direction to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion driving force + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy conservation cycle coalescence engine with blade gravity solar thermal turbines in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engines with 10-stage blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescence engine with all rotor blade gravity solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with a vertical all blade gravity solar thermal turbine in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with a three-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) driven by acceleration of specific critical materials Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + acceleration of specific critical substances Accelerating friction loss reduction means (3) to drive all kinds of energy conservation with four-stage vertical moving blade gravity solar turbines Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + various energy conservation with a vertical all blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) in 6 stages Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + 7-stage full rotor blade gravity solar turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engine equipped with 4 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) that accelerates friction of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + A combination of various energy conservation cycle engines equipped with 5 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engines provided with 6-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines provided with seven stages of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engines with bladed gravity solar turbines in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy storage cycle coalescing engine with bladed gravity solar turbines in 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescing engines with all-blade gravity solar turbines in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with 7-stage vertical all blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by specific material acceleration Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 9-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) to accelerate acceleration of specific critical substances Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 10-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal (2E) in one stage Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie speed and mass speed + vertical type full-blade gravity solar heat turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass in two stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 7-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material acceleration. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescence engine equipped with 9-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 10-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engine provided with a vertical all blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for accelerating and driving the liquid metal (2E) in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescing engines provided with two stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動するタービンとした摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a four-stage vertical rotor blade gravity solar thermal turbine equipped with friction loss reduction means (3), which is a turbine that accelerates and accelerates the liquid metal (2E) with the pressure divided and stored in . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engine equipped with a 7-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを38多段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with 38 multi-stage gravity solar turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating in the rotational direction to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion driving force + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy conservation cycle coalescence engine with blade gravity solar thermal turbines in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engines with 10-stage blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescence engine with all rotor blade gravity solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with a vertical all blade gravity solar thermal turbine in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with a three-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) driven by acceleration of specific critical materials Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + acceleration of specific critical substances Accelerating friction loss reduction means (3) to drive all kinds of energy conservation with four-stage vertical moving blade gravity solar turbines Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + various energy conservation with a vertical all blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) in 6 stages Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + 7-stage full rotor blade gravity solar turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engine equipped with 4 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) that accelerates friction of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + A combination of various energy conservation cycle engines equipped with 5 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engines provided with 6-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines provided with seven stages of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engines with bladed gravity solar turbines in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy storage cycle coalescing engine with bladed gravity solar turbines in 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescing engines with all-blade gravity solar turbines in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with 7-stage vertical all blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by specific material acceleration Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 9-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) to accelerate acceleration of specific critical substances Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 10-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal (2E) in one stage Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie speed and mass speed + vertical type full-blade gravity solar heat turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass in two stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 7-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material acceleration. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescence engine equipped with 9-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 10-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engine provided with a vertical all blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for accelerating and driving the liquid metal (2E) in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescing engines provided with two stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engine equipped with a 7-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating in the rotational direction to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion driving force + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy conservation cycle coalescence engine with blade gravity solar thermal turbines in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engines with 10-stage blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescence engine with all rotor blade gravity solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with a vertical all blade gravity solar thermal turbine in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with a three-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) driven by acceleration of specific critical materials Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + acceleration of specific critical substances Accelerating friction loss reduction means (3) to drive all kinds of energy conservation with four-stage vertical moving blade gravity solar turbines Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + various energy conservation with a vertical all blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) in 6 stages Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + 7-stage full rotor blade gravity solar turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engine equipped with 4 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) that accelerates friction of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + A combination of various energy conservation cycle engines equipped with 5 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engines provided with 6-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines provided with seven stages of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engines with bladed gravity solar turbines in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy storage cycle coalescing engine with bladed gravity solar turbines in 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescing engines with all-blade gravity solar turbines in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with 7-stage vertical all blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by specific material acceleration Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 9-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) to accelerate acceleration of specific critical substances Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 10-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal (2E) in one stage Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie speed and mass speed + vertical type full-blade gravity solar heat turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass in two stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 7-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material acceleration. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescence engine equipped with 9-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 10-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engine provided with a vertical all blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for accelerating and driving the liquid metal (2E) in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescing engines provided with two stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engine equipped with a 7-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating in the rotational direction to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion driving force + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy conservation cycle coalescence engine with blade gravity solar thermal turbines in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engines with 10-stage blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescence engine with all rotor blade gravity solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with a vertical all blade gravity solar thermal turbine in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with a three-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) driven by acceleration of specific critical materials Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + acceleration of specific critical substances Accelerating friction loss reduction means (3) to drive all kinds of energy conservation with four-stage vertical moving blade gravity solar turbines Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + various energy conservation with a vertical all blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) in 6 stages Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + 7-stage full rotor blade gravity solar turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy conservation cycle coalescence engine with blade gravity solar thermal turbines in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engines with 10-stage blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescence engine with all rotor blade gravity solar turbines installed in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with a vertical all blade gravity solar thermal turbine in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engines with bladed gravity solar turbines in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy storage cycle coalescing engine with bladed gravity solar turbines in 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescing engines with all-blade gravity solar turbines in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with 7-stage vertical all blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) The liquid metal is used for ascending storage + accelerating with the pressure divided and stored in the calorie velocity and mass velocity + the vertical all blade gravity solar thermal turbine equipped with the friction loss reducing means (3) driven by the acceleration of specific material Various energy storage cycle coalescing engine in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending and storing liquid metal + Accelerates with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) that accelerates specific critical substances by acceleration Various energy conservation cycle coalescing engines with 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar turbine with friction loss reduction means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engines with 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Ascending and using liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Saddle-type full blade gravity equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) Various energy storage cycle coalescing engines with solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + accelerating by pressure divided and stored in calorie velocity and mass velocity + vertical type all equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with two stages of moving blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) The liquid metal is used for ascending storage + accelerating with the pressure divided and stored in the calorie velocity and mass velocity + the vertical all blade gravity solar thermal turbine equipped with the friction loss reducing means (3) driven by the acceleration of specific material Various energy storage cycle coalescing engine in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) The liquid metal is used for ascending storage + accelerating with the pressure divided and stored in the calorie velocity and mass velocity + the vertical all blade gravity solar thermal turbine equipped with the friction loss reducing means (3) driven by the acceleration of specific material Various energy storage cycle coalescence engine provided in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) The liquid metal is used for ascending storage + accelerating with the pressure divided and stored in the calorie velocity and mass velocity + the vertical all blade gravity solar thermal turbine equipped with the friction loss reducing means (3) driven by the acceleration of specific material Various energy storage cycle coalescence engine provided in 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) The liquid metal is used for ascending storage + accelerating with the pressure divided and stored in the calorie velocity and mass velocity + the vertical all blade gravity solar thermal turbine equipped with the friction loss reducing means (3) driven by the acceleration of specific material Various energy conservation cycle coalescence engine provided in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) The liquid metal is used for ascending storage + accelerating with the pressure divided and stored in the calorie velocity and mass velocity + the vertical all blade gravity solar thermal turbine equipped with the friction loss reducing means (3) driven by the acceleration of specific material Various energy conservation cycle coalescence engine provided in 7 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending and storing liquid metal + Accelerates with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engine with 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending and storing liquid metal + Accelerates with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) that accelerates specific critical substances by acceleration Various energy conservation cycle coalescing engines with 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending and storing liquid metal + Accelerates with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) that accelerates specific critical substances by acceleration Various energy conservation cycle coalescing engines with 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending and storing liquid metal + Accelerates with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engines with one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending and storing liquid metal + Accelerates with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engines with two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar turbine with friction loss reduction means (3) driven by specific material rolling contact Various energy conservation cycle coalescence engine with three stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar turbine with friction loss reduction means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engine with 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar turbine with friction loss reduction means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engine with 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar turbine with friction loss reduction means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engines with 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar turbine with friction loss reduction means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engine with 7 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Ascending and using liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Saddle-type full blade gravity equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) Various energy conservation cycle coalescence engine with solar heat turbines in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Ascending and using liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Saddle-type full blade gravity equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) Various energy storage cycle coalescence engine with solar heat turbines in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Ascending and using liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Saddle-type full blade gravity equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) Various energy conservation cycle coalescing engines with 10 solar turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Ascending and using liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Saddle-type full blade gravity equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) Various energy storage cycle coalescing engines with solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Ascending and using liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Saddle-type full blade gravity equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) Various energy storage cycle coalescing engines with two solar turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + accelerating by pressure divided and stored in calorie velocity and mass velocity + vertical type all equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with three stages of moving blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + accelerating by pressure divided and stored in calorie velocity and mass velocity + vertical type all equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engine with moving blade gravity solar heat turbine in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + accelerating by pressure divided and stored in calorie velocity and mass velocity + vertical type all equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with 5 blades of moving blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + accelerating by pressure divided and stored in calorie velocity and mass velocity + vertical type all equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines with 6-stage rotor blade gravity solar turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + accelerating by pressure divided and stored in calorie velocity and mass velocity + vertical type all equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with 7-stage rotor blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Using liquid metal ascending and storing + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertical type rotor blade gravity solar thermal turbine equipped with friction loss reduction means (3) aiming at the same water maximum power generation Various energy storage cycle coalescing engine with 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Using liquid metal ascending and storing + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertical type rotor blade gravity solar thermal turbine equipped with friction loss reduction means (3) aiming at the same water maximum power generation Various energy conservation cycle coalescing engines with 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Using liquid metal ascending and storing + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertical type rotor blade gravity solar thermal turbine equipped with friction loss reduction means (3) aiming at the same water maximum power generation Various energy conservation cycle coalescing engines with 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Using liquid metal ascending and storing + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertical type rotor blade gravity solar thermal turbine equipped with friction loss reduction means (3) aiming at the same water maximum power generation Various energy storage cycle coalescing engines with one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Using liquid metal ascending and storing + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertical type rotor blade gravity solar thermal turbine equipped with friction loss reduction means (3) aiming at the same water maximum power generation Various energy storage cycle coalescing engines with two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation and use + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation with three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material acceleration Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation use + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy with 4 stages of vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) to accelerate acceleration of specific critical substances Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Conservation use + Acceleration with the pressure divided and stored in calorie velocity and mass velocity + Various energy with 5 stages of vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preserved use + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Six-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal (2E) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Seven stages of vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engine equipped with 4 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) that accelerates friction of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + A combination of various energy conservation cycle engines equipped with 5 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engines provided with 6-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines provided with seven stages of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engines with bladed gravity solar turbines in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy storage cycle coalescing engine with bladed gravity solar turbines in 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescing engines with all-blade gravity solar turbines in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with 7-stage vertical all blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by specific material acceleration Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 9-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) to accelerate acceleration of specific critical substances Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 10-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal (2E) in one stage Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie speed and mass speed + vertical type full-blade gravity solar heat turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass in two stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 7-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material acceleration. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescence engine equipped with 9-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 10-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engine provided with a vertical all blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for accelerating and driving the liquid metal (2E) in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescing engines provided with two stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engine equipped with a 7-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating in the rotational direction to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion driving force + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy conservation cycle coalescence engine with blade gravity solar thermal turbines in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engines with 10-stage blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescence engine with all rotor blade gravity solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with a vertical all blade gravity solar thermal turbine in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with a three-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) driven by acceleration of specific critical materials Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + acceleration of specific critical substances Accelerating friction loss reduction means (3) to drive all kinds of energy conservation with four-stage vertical moving blade gravity solar turbines Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + various energy conservation with a vertical all blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) in 6 stages Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + 7-stage full rotor blade gravity solar turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engine equipped with 4 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) that accelerates friction of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + A combination of various energy conservation cycle engines equipped with 5 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engines provided with 6-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines provided with seven stages of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engines with bladed gravity solar turbines in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy storage cycle coalescing engine with bladed gravity solar turbines in 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescing engines with all-blade gravity solar turbines in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with 7-stage vertical all blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by specific material acceleration Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 9-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) to accelerate acceleration of specific critical substances Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 10-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal (2E) in one stage Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie speed and mass speed + vertical type full-blade gravity solar heat turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass in two stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 7-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material acceleration. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescence engine equipped with 9-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 10-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engine provided with a vertical all blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for accelerating and driving the liquid metal (2E) in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescing engines provided with two stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engine equipped with a 7-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating in the rotational direction to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion driving force + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy conservation cycle coalescence engine with blade gravity solar thermal turbines in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engines with 10-stage blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescence engine with all rotor blade gravity solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with a vertical all blade gravity solar thermal turbine in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with a three-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) driven by acceleration of specific critical materials Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + acceleration of specific critical substances Accelerating friction loss reduction means (3) to drive all kinds of energy conservation with four-stage vertical moving blade gravity solar turbines Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + various energy conservation with a vertical all blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) in 6 stages Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + 7-stage full rotor blade gravity solar turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engine equipped with 4 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) that accelerates friction of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + A combination of various energy conservation cycle engines equipped with 5 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engines provided with 6-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines provided with seven stages of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engines with bladed gravity solar turbines in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy storage cycle coalescing engine with bladed gravity solar turbines in 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescing engines with all-blade gravity solar turbines in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with 7-stage vertical all blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by specific material acceleration Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 9-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) to accelerate acceleration of specific critical substances Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 10-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal (2E) in one stage Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie speed and mass speed + vertical type full-blade gravity solar heat turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass in two stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 7-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material acceleration. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescence engine equipped with 9-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 10-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engine provided with a vertical all blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for accelerating and driving the liquid metal (2E) in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescing engines provided with two stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engine equipped with a 7-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating in the rotational direction to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion driving force + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy conservation cycle coalescence engine with blade gravity solar thermal turbines in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engines with 10-stage blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescence engine with all rotor blade gravity solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with a vertical all blade gravity solar thermal turbine in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with a three-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) driven by acceleration of specific critical materials Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + acceleration of specific critical substances Accelerating friction loss reduction means (3) to drive all kinds of energy conservation with four-stage vertical moving blade gravity solar turbines Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + various energy conservation with a vertical all blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) in 6 stages Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + 7-stage full rotor blade gravity solar turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engine equipped with 4 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) that accelerates friction of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + A combination of various energy conservation cycle engines equipped with 5 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engines provided with 6-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines provided with seven stages of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engines with bladed gravity solar turbines in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy storage cycle coalescing engine with bladed gravity solar turbines in 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescing engines with all-blade gravity solar turbines in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with 7-stage vertical all blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by specific material acceleration Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 9-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) to accelerate acceleration of specific critical substances Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 10-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal (2E) in one stage Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie speed and mass speed + vertical type full-blade gravity solar heat turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass in two stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 7-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material acceleration. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescence engine equipped with 9-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 10-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engine provided with a vertical all blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for accelerating and driving the liquid metal (2E) in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescing engines provided with two stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engine equipped with a 7-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating in the rotational direction to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion driving force + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy conservation cycle coalescence engine with blade gravity solar thermal turbines in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engines with 10-stage blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescence engine with all rotor blade gravity solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with a vertical all blade gravity solar thermal turbine in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with a three-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) driven by acceleration of specific critical materials Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + acceleration of specific critical substances Accelerating friction loss reduction means (3) to drive all kinds of energy conservation with four-stage vertical moving blade gravity solar turbines Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + various energy conservation with a vertical all blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) in 6 stages Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + 7-stage full rotor blade gravity solar turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy conservation cycle coalescence engine with blade gravity solar thermal turbines in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engines with 10-stage blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescence engine with all rotor blade gravity solar turbines installed in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with a vertical all blade gravity solar thermal turbine in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engines with bladed gravity solar turbines in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy storage cycle coalescing engine with bladed gravity solar turbines in 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescing engines with all-blade gravity solar turbines in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with 7-stage vertical all blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) The liquid metal is used for ascending storage + accelerating with the pressure divided and stored in the calorie velocity and mass velocity + the vertical all blade gravity solar thermal turbine equipped with the friction loss reducing means (3) driven by the acceleration of specific material Various energy storage cycle coalescing engine in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending and storing liquid metal + Accelerates with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) that accelerates specific critical substances by acceleration Various energy conservation cycle coalescing engines with 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar turbine with friction loss reduction means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engines with 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Ascending and using liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Saddle-type full blade gravity equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) Various energy storage cycle coalescing engines with solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + accelerating by pressure divided and stored in calorie velocity and mass velocity + vertical type all equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with two stages of moving blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) The liquid metal is used for ascending storage + accelerating with the pressure divided and stored in the calorie velocity and mass velocity + the vertical all blade gravity solar thermal turbine equipped with the friction loss reducing means (3) driven by the acceleration of specific material Various energy storage cycle coalescing engine in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) The liquid metal is used for ascending storage + accelerating with the pressure divided and stored in the calorie velocity and mass velocity + the vertical all blade gravity solar thermal turbine equipped with the friction loss reducing means (3) driven by the acceleration of specific material Various energy storage cycle coalescence engine provided in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) The liquid metal is used for ascending storage + accelerating with the pressure divided and stored in the calorie velocity and mass velocity + the vertical all blade gravity solar thermal turbine equipped with the friction loss reducing means (3) driven by the acceleration of specific material Various energy storage cycle coalescence engine provided in 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) The liquid metal is used for ascending storage + accelerating with the pressure divided and stored in the calorie velocity and mass velocity + the vertical all blade gravity solar thermal turbine equipped with the friction loss reducing means (3) driven by the acceleration of specific material Various energy conservation cycle coalescence engine provided in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) The liquid metal is used for ascending storage + accelerating with the pressure divided and stored in the calorie velocity and mass velocity + the vertical all blade gravity solar thermal turbine equipped with the friction loss reducing means (3) driven by the acceleration of specific material Various energy conservation cycle coalescence engine provided in 7 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending and storing liquid metal + Accelerates with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engine with 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending and storing liquid metal + Accelerates with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) that accelerates specific critical substances by acceleration Various energy conservation cycle coalescing engines with 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending and storing liquid metal + Accelerates with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) that accelerates specific critical substances by acceleration Various energy conservation cycle coalescing engines with 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending and storing liquid metal + Accelerates with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engines with one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending and storing liquid metal + Accelerates with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engines with two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar turbine with friction loss reduction means (3) driven by specific material rolling contact Various energy conservation cycle coalescence engine with three stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar turbine with friction loss reduction means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engine with 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar turbine with friction loss reduction means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engine with 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar turbine with friction loss reduction means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engines with 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar turbine with friction loss reduction means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engine with 7 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Ascending and using liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Saddle-type full blade gravity equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) Various energy conservation cycle coalescence engine with solar heat turbines in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Ascending and using liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Saddle-type full blade gravity equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) Various energy storage cycle coalescence engine with solar heat turbines in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Ascending and using liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Saddle-type full blade gravity equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) Various energy conservation cycle coalescing engines with 10 solar turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Ascending and using liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Saddle-type full blade gravity equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) Various energy storage cycle coalescing engines with solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Ascending and using liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Saddle-type full blade gravity equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) Various energy storage cycle coalescing engines with two solar turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + accelerating by pressure divided and stored in calorie velocity and mass velocity + vertical type all equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with three stages of moving blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + accelerating by pressure divided and stored in calorie velocity and mass velocity + vertical type all equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engine with moving blade gravity solar heat turbine in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + accelerating by pressure divided and stored in calorie velocity and mass velocity + vertical type all equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with 5 blades of moving blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + accelerating by pressure divided and stored in calorie velocity and mass velocity + vertical type all equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines with 6-stage rotor blade gravity solar turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + accelerating by pressure divided and stored in calorie velocity and mass velocity + vertical type all equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with 7-stage rotor blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Using liquid metal ascending and storing + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertical type rotor blade gravity solar thermal turbine equipped with friction loss reduction means (3) aiming at the same water maximum power generation Various energy storage cycle coalescing engine with 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Using liquid metal ascending and storing + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertical type rotor blade gravity solar thermal turbine equipped with friction loss reduction means (3) aiming at the same water maximum power generation Various energy conservation cycle coalescing engines with 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Using liquid metal ascending and storing + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertical type rotor blade gravity solar thermal turbine equipped with friction loss reduction means (3) aiming at the same water maximum power generation Various energy conservation cycle coalescing engines with 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Using liquid metal ascending and storing + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertical type rotor blade gravity solar thermal turbine equipped with friction loss reduction means (3) aiming at the same water maximum power generation Various energy storage cycle coalescing engines with one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Using liquid metal ascending and storing + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertical type rotor blade gravity solar thermal turbine equipped with friction loss reduction means (3) aiming at the same water maximum power generation Various energy storage cycle coalescing engines with two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation and use + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation with three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material acceleration Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation use + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy with 4 stages of vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) to accelerate acceleration of specific critical substances Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Conservation use + Acceleration with the pressure divided and stored in calorie velocity and mass velocity + Various energy with 5 stages of vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preserved use + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Six-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal (2E) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Seven stages of vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engine equipped with 4 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) that accelerates friction of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + A combination of various energy conservation cycle engines equipped with 5 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engines provided with 6-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines provided with seven stages of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engines with bladed gravity solar turbines in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy storage cycle coalescing engine with bladed gravity solar turbines in 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescing engines with all-blade gravity solar turbines in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with 7-stage vertical all blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by specific material acceleration Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 9-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) to accelerate acceleration of specific critical substances Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 10-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal (2E) in one stage Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie speed and mass speed + vertical type full-blade gravity solar heat turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass in two stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 7-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material acceleration. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescence engine equipped with 9-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 10-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engine provided with a vertical all blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for accelerating and driving the liquid metal (2E) in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescing engines provided with two stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engine equipped with a 7-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating in the rotational direction to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion driving force + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy conservation cycle coalescence engine with blade gravity solar thermal turbines in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engines with 10-stage blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescence engine with all rotor blade gravity solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with a vertical all blade gravity solar thermal turbine in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with a three-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) driven by acceleration of specific critical materials Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + acceleration of specific critical substances Accelerating friction loss reduction means (3) to drive all kinds of energy conservation with four-stage vertical moving blade gravity solar turbines Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + various energy conservation with a vertical all blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) in 6 stages Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + 7-stage full rotor blade gravity solar turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engine equipped with 4 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) that accelerates friction of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + A combination of various energy conservation cycle engines equipped with 5 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engines provided with 6-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines provided with seven stages of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engines with bladed gravity solar turbines in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy storage cycle coalescing engine with bladed gravity solar turbines in 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescing engines with all-blade gravity solar turbines in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with 7-stage vertical all blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by specific material acceleration Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 9-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) to accelerate acceleration of specific critical substances Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 10-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal (2E) in one stage Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie speed and mass speed + vertical type full-blade gravity solar heat turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass in two stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+タービンを46段に設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速転がり接触駆動するタービンとした各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by 3 types of turbines + 46 stages of turbines to accelerate the liquid lead alloy downward + Heated air (28a) with intake air passage length lens and heat pump (1G) and air heat Increase the propulsion output with combustion gas calorie and mass aiming at infinity with exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Various energy storage cycle coalescing engines that use liquid metal (2E) as a turbine that rolls in contact with acceleration. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 7-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material acceleration. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescence engine equipped with 9-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 10-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engine provided with a vertical all blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for accelerating and driving the liquid metal (2E) in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescing engines provided with two stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engine equipped with a 7-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating in the rotational direction to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion driving force + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy conservation cycle coalescence engine with blade gravity solar thermal turbines in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engines with 10-stage blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescence engine with all rotor blade gravity solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with a vertical all blade gravity solar thermal turbine in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with a three-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) driven by acceleration of specific critical materials Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + acceleration of specific critical substances Accelerating friction loss reduction means (3) to drive all kinds of energy conservation with four-stage vertical moving blade gravity solar turbines Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + various energy conservation with a vertical all blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) in 6 stages Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + 7-stage full rotor blade gravity solar turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engine equipped with 4 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) that accelerates friction of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + A combination of various energy conservation cycle engines equipped with 5 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engines provided with 6-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines provided with seven stages of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engines with bladed gravity solar turbines in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy storage cycle coalescing engine with bladed gravity solar turbines in 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescing engines with all-blade gravity solar turbines in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with 7-stage vertical all blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by specific material acceleration Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 9-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) to accelerate acceleration of specific critical substances Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 10-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal (2E) in one stage Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie speed and mass speed + vertical type full-blade gravity solar heat turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass in two stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 7-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material acceleration. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescence engine equipped with 9-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 10-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engine provided with a vertical all blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for accelerating and driving the liquid metal (2E) in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescing engines provided with two stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engine equipped with a 7-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating in the rotational direction to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion driving force + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy conservation cycle coalescence engine with blade gravity solar thermal turbines in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engines with 10-stage blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescence engine with all rotor blade gravity solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with a vertical all blade gravity solar thermal turbine in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with a three-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) driven by acceleration of specific critical materials Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + acceleration of specific critical substances Accelerating friction loss reduction means (3) to drive all kinds of energy conservation with four-stage vertical moving blade gravity solar turbines Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + various energy conservation with a vertical all blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) in 6 stages Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + 7-stage full rotor blade gravity solar turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engine equipped with 4 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) that accelerates friction of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + A combination of various energy conservation cycle engines equipped with 5 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engines provided with 6-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines provided with seven stages of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engines with bladed gravity solar turbines in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy storage cycle coalescing engine with bladed gravity solar turbines in 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescing engines with all-blade gravity solar turbines in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with 7-stage vertical all blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by specific material acceleration Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 9-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) to accelerate acceleration of specific critical substances Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 10-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal (2E) in one stage Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie speed and mass speed + vertical type full-blade gravity solar heat turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass in two stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 7-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material acceleration. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescence engine equipped with 9-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 10-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engine provided with a vertical all blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for accelerating and driving the liquid metal (2E) in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescing engines provided with two stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engine equipped with a 7-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating in the rotational direction to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion driving force + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy conservation cycle coalescence engine with blade gravity solar thermal turbines in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engines with 10-stage blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescence engine with all rotor blade gravity solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with a vertical all blade gravity solar thermal turbine in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with a three-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) driven by acceleration of specific critical materials Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + acceleration of specific critical substances Accelerating friction loss reduction means (3) to drive all kinds of energy conservation with four-stage vertical moving blade gravity solar turbines Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + various energy conservation with a vertical all blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) in 6 stages Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + 7-stage full rotor blade gravity solar turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy conservation cycle coalescence engine with blade gravity solar thermal turbines in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engines with 10-stage blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescence engine with all rotor blade gravity solar turbines installed in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with a vertical all blade gravity solar thermal turbine in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engines with bladed gravity solar turbines in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy storage cycle coalescing engine with bladed gravity solar turbines in 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescing engines with all-blade gravity solar turbines in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を加速する構成や方法+吸入空気流路長レンズで加熱の空気を圧縮熱回収燃料噴射燃焼熱回収して分割保存使用する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + Configuration and method for accelerating the power increase sphere (2E) + Heated air is recovered by compression heat recovery fuel injection combustion heat recovery by intake air flow path length lens + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with 7-stage vertical all blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) The liquid metal is used for ascending storage + accelerating with the pressure divided and stored in the calorie velocity and mass velocity + the vertical all blade gravity solar thermal turbine equipped with the friction loss reducing means (3) driven by the acceleration of specific material Various energy storage cycle coalescing engine in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending and storing liquid metal + Accelerates with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) that accelerates specific critical substances by acceleration Various energy conservation cycle coalescing engines with 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar turbine with friction loss reduction means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engines with 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Ascending and using liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Saddle-type full blade gravity equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) Various energy storage cycle coalescing engines with solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + accelerating by pressure divided and stored in calorie velocity and mass velocity + vertical type all equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with two stages of moving blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) The liquid metal is used for ascending storage + accelerating with the pressure divided and stored in the calorie velocity and mass velocity + the vertical all blade gravity solar thermal turbine equipped with the friction loss reducing means (3) driven by the acceleration of specific material Various energy storage cycle coalescing engine in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) The liquid metal is used for ascending storage + accelerating with the pressure divided and stored in the calorie velocity and mass velocity + the vertical all blade gravity solar thermal turbine equipped with the friction loss reducing means (3) driven by the acceleration of specific material Various energy storage cycle coalescence engine provided in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) The liquid metal is used for ascending storage + accelerating with the pressure divided and stored in the calorie velocity and mass velocity + the vertical all blade gravity solar thermal turbine equipped with the friction loss reducing means (3) driven by the acceleration of specific material Various energy storage cycle coalescence engine provided in 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) The liquid metal is used for ascending storage + accelerating with the pressure divided and stored in the calorie velocity and mass velocity + the vertical all blade gravity solar thermal turbine equipped with the friction loss reducing means (3) driven by the acceleration of specific material Various energy conservation cycle coalescence engine provided in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) The liquid metal is used for ascending storage + accelerating with the pressure divided and stored in the calorie velocity and mass velocity + the vertical all blade gravity solar thermal turbine equipped with the friction loss reducing means (3) driven by the acceleration of specific material Various energy conservation cycle coalescence engine provided in 7 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending and storing liquid metal + Accelerates with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engine with 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending and storing liquid metal + Accelerates with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) that accelerates specific critical substances by acceleration Various energy conservation cycle coalescing engines with 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending and storing liquid metal + Accelerates with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) that accelerates specific critical substances by acceleration Various energy conservation cycle coalescing engines with 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending and storing liquid metal + Accelerates with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engines with one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending and storing liquid metal + Accelerates with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar heat turbine equipped with friction loss reducing means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engines with two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar turbine with friction loss reduction means (3) driven by specific material rolling contact Various energy conservation cycle coalescence engine with three stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar turbine with friction loss reduction means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engine with 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar turbine with friction loss reduction means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engine with 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar turbine with friction loss reduction means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engines with 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Uses ascending storage of liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertically moving blade gravity solar turbine with friction loss reduction means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engine with 7 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Ascending and using liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Saddle-type full blade gravity equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) Various energy conservation cycle coalescence engine with solar heat turbines in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Ascending and using liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Saddle-type full blade gravity equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) Various energy storage cycle coalescence engine with solar heat turbines in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Ascending and using liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Saddle-type full blade gravity equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) Various energy conservation cycle coalescing engines with 10 solar turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Ascending and using liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Saddle-type full blade gravity equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) Various energy storage cycle coalescing engines with solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Ascending and using liquid metal + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Saddle-type full blade gravity equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) Various energy storage cycle coalescing engines with two solar turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + accelerating by pressure divided and stored in calorie velocity and mass velocity + vertical type all equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with three stages of moving blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + accelerating by pressure divided and stored in calorie velocity and mass velocity + vertical type all equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engine with moving blade gravity solar heat turbine in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + accelerating by pressure divided and stored in calorie velocity and mass velocity + vertical type all equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with 5 blades of moving blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + accelerating by pressure divided and stored in calorie velocity and mass velocity + vertical type all equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines with 6-stage rotor blade gravity solar turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) uses liquid metal ascending and storing + accelerating by pressure divided and stored in calorie velocity and mass velocity + vertical type all equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy storage cycle coalescing engine with 7-stage rotor blade gravity solar heat turbine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Using liquid metal ascending and storing + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertical type rotor blade gravity solar thermal turbine equipped with friction loss reduction means (3) aiming at the same water maximum power generation Various energy storage cycle coalescing engine with 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Using liquid metal ascending and storing + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertical type rotor blade gravity solar thermal turbine equipped with friction loss reduction means (3) aiming at the same water maximum power generation Various energy conservation cycle coalescing engines with 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Using liquid metal ascending and storing + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertical type rotor blade gravity solar thermal turbine equipped with friction loss reduction means (3) aiming at the same water maximum power generation Various energy conservation cycle coalescing engines with 10 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Using liquid metal ascending and storing + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertical type rotor blade gravity solar thermal turbine equipped with friction loss reduction means (3) aiming at the same water maximum power generation Various energy storage cycle coalescing engines with one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+各種船舶類を回転力と噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   3 types of turbines driven by liquid metal gravity solar engine + horizontal turbine (1h) with rotational turbines rotating alternately to accelerate mercury downward + various vessels to drive rotational force and propulsion propulsion (2F) Using liquid metal ascending and storing + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Vertical type rotor blade gravity solar thermal turbine equipped with friction loss reduction means (3) aiming at the same water maximum power generation Various energy storage cycle coalescing engines with two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation and use + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation with three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material acceleration Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation use + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy with 4 stages of vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) to accelerate acceleration of specific critical substances Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Conservation use + Acceleration with the pressure divided and stored in calorie velocity and mass velocity + Various energy with 5 stages of vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Conservation cycle coalescence organization. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preserved use + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Six-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal (2E) Various energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて水銀を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Turbine 3 type liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the rotation direction to accelerate the mercury downward + heating air (28a) heat pump with suction air flow path length lens ( 1G) and air heat exchanger (2X) aim at infinity Increase combustion propulsion output with combustion gas calorie and mass + Increase ball riser with increase ball lift device (2F) + Increase liquid metal with increase ball lift device (2F) Preservation + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Seven stages of vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engine established in. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engine equipped with 4 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) that accelerates friction of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + A combination of various energy conservation cycle engines equipped with 5 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engines provided with 6-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines provided with seven stages of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engines with bladed gravity solar turbines in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy storage cycle coalescing engine with bladed gravity solar turbines in 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescing engines with all-blade gravity solar turbines in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with 7-stage vertical all blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by specific material acceleration Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 9-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) to accelerate acceleration of specific critical substances Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 10-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal (2E) in one stage Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie speed and mass speed + vertical type full-blade gravity solar heat turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass in two stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 7-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material acceleration. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescence engine equipped with 9-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 10-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engine provided with a vertical all blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for accelerating and driving the liquid metal (2E) in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescing engines provided with two stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engine equipped with a 7-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 8 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating in the rotational direction to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion driving force + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy conservation cycle coalescence engine with blade gravity solar thermal turbines in 9 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy conservation cycle coalescing engines with 10-stage blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescence engine with all rotor blade gravity solar turbines in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines in alternate rotation directions to accelerate the liquid metal downwards + Drive various aircrafts such as space shuttles with rotational force propulsion propulsion + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with a vertical all blade gravity solar thermal turbine in two stages. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with a three-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) driven by acceleration of specific critical materials Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + acceleration of specific critical substances Accelerating friction loss reduction means (3) to drive all kinds of energy conservation with four-stage vertical moving blade gravity solar turbines Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + various energy conservation with a vertical all blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E) in 6 stages Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie velocity and mass velocity + 7-stage full rotor blade gravity solar turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engine equipped with 4 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) that accelerates friction of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + A combination of various energy conservation cycle engines equipped with 5 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescence engines provided with 6-stage vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal (2E). タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engines provided with seven stages of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 8 stages of vertical rotor blade gravity solar thermal turbines equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with 9-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates and accelerates the acceleration of specific critical materials with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 10 types of vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engines provided with a vertical all blade gravity solar turbine equipped with a friction loss reduction means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy conservation cycle coalescence engines equipped with two-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reduction means (3) that accelerates by pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising sphere rising device (2F) to save and store liquid metal + Accelerating with pressure divided and stored in calorie velocity and mass velocity + Friction loss reduction means (3) driven by acceleration of specific material acceleration Various energy storage cycle coalescing engines with gravity solar turbines in 3 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and use liquid metal + Accelerate by pressure divided and stored in calorie velocity and mass velocity + Vertical movement with friction loss reduction means (3) that accelerates specific critical substances by acceleration Various energy storage cycle coalescing engines with bladed gravity solar turbines in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Using a rising ball rising device (2F) to save and store liquid metal + acceleration with pressure divided and stored in calorie velocity and mass velocity + Rolling type full motion equipped with friction loss reducing means (3) driven by specific material rolling contact Various energy storage cycle coalescing engine with bladed gravity solar turbines in 5 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Ascending and storing the liquid metal with the increasing ball rising device (2F) + accelerating with the pressure divided and stored in the calorie speed and the mass speed + the friction loss reducing means (3) for accelerating the liquid metal (2E) Various energy conservation cycle coalescing engines with all-blade gravity solar turbines in 6 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体金属を下方に加速駆動する+宇宙往還機等各種航空機類を回転力噴射推進力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine driven by three types of turbines + A horizontal turbine (1h) with rotating turbines rotating alternately to accelerate the liquid metal downward + Drive various types of aircraft such as a space shuttle + Elevating sphere climbing device (2F) uses ascending and storing liquid metal + Accelerates by pressure divided and stored in calorie velocity and mass velocity + Equipped with friction loss reducing means (3) for accelerating and driving liquid metal with compressed air calorie and mass Various energy conservation cycle coalescing engines equipped with 7-stage vertical all blade gravity solar thermal turbines. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various energy conservation cycles equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by specific material acceleration Combined organization. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 9-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) to accelerate acceleration of specific critical substances Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + Accelerate with pressure divided and stored in calorie velocity and mass velocity + Save energy with 10-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by specific material rolling contact Cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Used + Acceleration with pressure divided and stored in calorie velocity and mass velocity + Various types of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal (2E) in one stage Energy conservation cycle coalescence engine. タービン3種類駆動の液体金属重力太陽熱エンジン+出力増大球(2E)を重力加速度で下方に加速タービン駆動する+各種車両類を回転力駆動する+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + Accelerating the output sphere (2E) downward with gravitational acceleration Turbine driving + Driving various vehicles with rotational force + Increasing sphere lifting device (2F) Use + acceleration with pressure divided and stored in calorie speed and mass speed + vertical type full-blade gravity solar heat turbine equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air calorie and mass in two stages Various energy conservation cycle coalescence engines provided. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて液体鉛合金を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar engine + horizontal axis (1h) with rotating turbines rotating in the direction of rotation to accelerate the liquid lead alloy downward + heat the heated air (28a) with the intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 7-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 8 types of vertical rotor blade gravity solar turbines equipped with friction loss reducing means (3) driven by specific material acceleration. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescence engine equipped with 9-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reducing means (3) driven by acceleration of specific critical materials. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy conservation cycle coalescing engines equipped with 10-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) driven by specific material rolling contact. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Acceleration with the pressure divided and stored in the calorie velocity and mass velocity + Various energy storage cycle coalescing engine provided with a vertical all blade gravity solar thermal turbine equipped with a friction loss reducing means (3) for accelerating and driving the liquid metal (2E) in one stage. タービン3種類駆動の液体金属重力太陽熱エンジン+出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar heat engine driven by three types of turbines + Method to install all the power generation turbine blades + Increase and use of the liquid metal by the rising sphere rising device (2F) + Various energy storage cycle coalescing engines provided with two stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) for accelerating and driving liquid metal with compressed air heat and mass. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with a three-stage vertical rotor blade gravity solar heat turbine equipped with friction loss reduction means (3) driven by acceleration + specific material acceleration drive with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質を加速駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines equipped with a vertical all-blade gravity solar thermal turbine equipped with a friction loss reducing means (3) that accelerates and accelerates the acceleration of a specific critical substance with the pressure divided and stored in 4 stages. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+比重大物質転がり接触駆動の摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 5 stages of vertical rotor blade gravity solar turbines equipped with friction loss reduction means (3) driven by acceleration + specific material rolling contact with pressure stored separately. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属(2E)を加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescing engines provided with 6-stage vertical rotor blade gravity solar heat turbines equipped with friction loss reducing means (3) for accelerating and driving the liquid metal (2E) with the pressure divided and stored. タービン3種類駆動の液体金属重力太陽熱エンジン+横軸(1h)で回転方向交互のタービンを設けて比重大物質を下方に加速駆動する+吸入空気流路長レンズで加熱の空気(28a)を熱ポンプ(1G)と空気熱交換器(2X)で無限大を狙う燃焼ガス熱量と質量で噴射推進出力を増大+増大球上昇装置(2F)で液体金属を上昇保存使用する+熱量速度と質量速度に分割保存した圧力で加速+液体金属を圧縮空気熱量と質量で加速駆動する摩擦損失低減手段(3)を具備した竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Three types of turbine driven liquid metal gravity solar heat engine + horizontal axis (1h) with turbines rotating alternately in direction of rotation to accelerate acceleration of specific critical substances downward + heating air (28a) with intake air flow path length lens Increase the propulsion output with combustion gas calorie and mass aiming at infinity with pump (1G) and air heat exchanger (2X) + Increase and save liquid metal with increase ball lift device (2F) + Heat rate and mass rate Various energy storage cycle coalescence engine equipped with a 7-stage vertical rotor blade gravity solar turbine equipped with friction loss reduction means (3) that accelerates with pressure divided and stored + accelerated acceleration of liquid metal with compressed air calorie and mass . 分割保存した燃焼ガス熱量圧力及び燃焼ガス質量圧力全部で駆動の竪型全動翼重力太陽熱タービンを8段に設けた各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines equipped with 8 types of vertical rotor blade gravity solar turbines that are driven by all of the combustion gas calorie pressure and combustion gas mass pressure. 分割保存した燃焼ガス熱量圧力及び燃焼ガス質量圧力全部で駆動の竪型全動翼重力太陽熱タービンを9段に設けた各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines equipped with a 9-stage vertical all-blade gravity solar turbine driven by all the combustion gas calorie pressure and combustion gas mass pressure. 分割保存した燃焼ガス熱量圧力及び燃焼ガス質量圧力全部で駆動の竪型全動翼重力太陽熱タービンを10段に設けた各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines provided with 10-stage vertical rotor blade gravity solar turbines that are driven by all of the combustion gas calorie pressure and combustion gas mass pressure that are stored separately. 分割保存した燃焼ガス熱量圧力及び燃焼ガス質量圧力全部で駆動の竪型全動翼重力太陽熱タービンを1段に設けた各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines equipped with a single-stage full-rotor-gravity solar power turbine that is driven by all the combustion gas calorie pressure and combustion gas mass pressure that are stored separately. 分割保存した燃焼ガス熱量圧力及び燃焼ガス質量圧力全部で駆動の竪型全動翼重力太陽熱タービンを2段に設けた各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines provided with two-stage vertical rotor blade gravity solar turbines that are driven by all of the combustion gas calorie pressure and combustion gas mass pressure that are stored separately. 分割保存した燃焼ガス熱量圧力及び燃焼ガス質量圧力全部で駆動の竪型全動翼重力太陽熱タービンを3段に設けた各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines equipped with three-stage vertical rotor blade gravity solar turbines that are driven by all of the combustion gas calorie pressure and combustion gas mass pressure. 分割保存した燃焼ガス熱量圧力及び燃焼ガス質量圧力全部で駆動の竪型全動翼重力太陽熱タービンを4段に設けた各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines equipped with a four-stage vertical rotor blade gravity solar turbine driven by all the combustion gas calorie pressure and combustion gas mass pressure. 分割保存した燃焼ガス熱量圧力及び燃焼ガス質量圧力全部で駆動の竪型全動翼重力太陽熱タービンを5段に設けた各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines equipped with 5 stages of vertical all blade gravity solar heat turbines driven by all of the combustion gas calorie pressure and combustion gas mass pressure. 分割保存した燃焼ガス熱量圧力及び燃焼ガス質量圧力全部で駆動の竪型全動翼重力太陽熱タービンを6段に設けた各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines equipped with 6-stage vertical all-blade gravity solar turbines that are driven by all of the combustion gas calorie pressure and combustion gas mass pressure. 分割保存した燃焼ガス熱量圧力及び燃焼ガス質量圧力全部で駆動の竪型全動翼重力太陽熱タービンを7段に設けた各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines equipped with 7-stage vertical rotor blade gravity solar turbines that are driven by all of the combustion gas calorie pressure and combustion gas mass pressure. タービン翼断面(4A)を25倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with a turbine blade cross section (4A) 25 times larger. タービン翼断面(4A)を2倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with twice the turbine blade cross section (4A). タービン翼断面(4A)を3倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with three times the turbine blade cross section (4A). タービン翼断面(4A)を4倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with four times the turbine blade cross section (4A). タービン翼断面(4A)を5倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 5 times the turbine blade cross section (4A). タービン翼断面(4A)を6倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 6 times the turbine blade cross section (4A). タービン翼断面(4A)を7倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with a turbine blade cross section (4A) 7 times larger. タービン翼断面(4A)を8倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with a turbine blade cross section (4A) 8 times larger. タービン翼断面(4A)を9倍に設けた2種類のタービン回転出力で駆動する水吸引噴射の噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Various types of energy storage cycle coalescence engines for generating water jet injection propulsion output driven by two types of turbine rotation output with turbine blade cross section (4A) 9 times larger. タービン翼断面(4A)を10倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output driven by three types of turbine rotation output with a turbine blade cross section (4A) provided 10 times and injection propulsion output generation methods Various energy storage cycle combined engines. タービン翼断面(4A)を11倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 11 times the turbine blade cross section (4A). タービン翼断面(4A)を12倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 12 times the turbine blade cross section (4A). タービン翼断面(4A)を13倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with a turbine blade cross section (4A) 13 times larger. タービン翼断面(4A)を14倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with a turbine blade cross section (4A) 14 times larger. タービン翼断面(4A)を15倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4A) 15 times larger. タービン翼断面(4A)を16倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 16 times the turbine blade cross section (4A). タービン翼断面(4A)を17倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4A) 17 times larger. タービン翼断面(4A)を18倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4A) 18 times. タービン翼断面(4A)を19倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4A) 19 times. タービン翼断面(4A)を20倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4A) 20 times. タービン翼断面(4A)を21倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4A) 21 times larger. タービン翼断面(4A)を22倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by 3 types of turbine rotation output with turbine blade cross section (4A) 22 times larger. タービン翼断面(4A)を23倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 23 times the turbine blade cross section (4A). タービン翼断面(4A)を24倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4A) 24 times larger. タービン翼断面(4B)を25倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with a turbine blade section (4B) 25 times larger. タービン翼断面(4B)を2倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with twice the turbine blade cross section (4B). タービン翼断面(4B)を3倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with three times the turbine blade cross section (4B). タービン翼断面(4B)を4倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with four times the turbine blade cross section (4B). タービン翼断面(4B)を5倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 5 times the turbine blade cross section (4B). タービン翼断面(4B)を6倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 6 times the turbine blade cross section (4B). タービン翼断面(4B)を7倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with a turbine blade cross section (4B) 7 times larger. タービン翼断面(4B)を8倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4B) 8 times. タービン翼断面(4B)を9倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4B) 9 times. タービン翼断面(4B)を10倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotational output driven by three types of turbine rotational output with a turbine blade cross section (4B) 10 times and injection propulsion output generation methods Various energy storage cycle combined engines. タービン翼断面(4B)を11倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output driven by three types of turbine rotation output with 11 times the turbine blade cross section (4B) and injection propulsion output generation method Various energy storage cycle combined engine. タービン翼断面(4B)を12倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 12 times the turbine blade cross section (4B). タービン翼断面(4B)を13倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 13 times the turbine blade cross section (4B). タービン翼断面(4B)を14倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with a turbine blade cross section (4B) 14 times larger. タービン翼断面(4B)を15倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with a turbine blade cross section (4B) 15 times larger. タービン翼断面(4B)を16倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 16 times the turbine blade cross section (4B). タービン翼断面(4B)を17倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4B) 17 times larger. タービン翼断面(4B)を18倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4B) 18 times. タービン翼断面(4B)を19倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4B) 19 times. タービン翼断面(4B)を20倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4B) 20 times larger. タービン翼断面(4B)を21倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4B) 21 times larger. タービン翼断面(4B)を22倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4B) 22 times larger. タービン翼断面(4B)を23倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 23 times the turbine blade cross section (4B). タービン翼断面(4B)を24倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 24 times the turbine blade cross section (4B). タービン翼断面(4C)を25倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4C) 25 times. タービン翼断面(4C)を2倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with twice the turbine blade cross section (4C). タービン翼断面(4C)を3倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with three times the turbine blade cross section (4C). タービン翼断面(4C)を4倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with four times the turbine blade cross section (4C). タービン翼断面(4C)を5倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by 3 types of turbine rotation output with 5 times turbine blade cross section (4C). タービン翼断面(4C)を6倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 6 times the turbine blade cross section (4C). タービン翼断面(4C)を7倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 7 times the turbine blade cross section (4C). タービン翼断面(4C)を8倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with a turbine blade cross section (4C) 8 times larger. タービン翼断面(4C)を9倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4C) 9 times. タービン翼断面(4C)を10倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output driven by three types of turbine rotation output with a turbine blade cross section (4C) 10 times and injection propulsion output generation methods Various energy storage cycle coalescing engines. タービン翼断面(4C)を11倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 11 times the turbine blade cross section (4C). タービン翼断面(4C)を12倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by 3 types of turbine rotation output with 12 times the turbine blade cross section (4C). タービン翼断面(4C)を13倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 13 times the turbine blade cross section (4C). タービン翼断面(4C)を14倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4C) 14 times. タービン翼断面(4C)を15倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4C) 15 times. タービン翼断面(4C)を16倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 16 times the turbine blade cross section (4C). タービン翼断面(4C)を17倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4C) 17 times. タービン翼断面(4C)を18倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4C) 18 times. タービン翼断面(4C)を19倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4C) 19 times. タービン翼断面(4C)を20倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4C) 20 times. タービン翼断面(4C)を21倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4C) provided 21 times. タービン翼断面(4C)を22倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with a turbine blade cross section (4C) 22 times larger. タービン翼断面(4C)を23倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 23 times the turbine blade cross section (4C). タービン翼断面(4C)を24倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 24 times the turbine blade cross section (4C). タービン翼断面(4D)を25倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with a turbine blade cross section (4D) 25 times larger. タービン翼断面(4D)を2倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with twice the turbine blade cross section (4D). タービン翼断面(4D)を3倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with three times the turbine blade cross section (4D). タービン翼断面(4D)を4倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with four times the turbine blade cross section (4D). タービン翼断面(4D)を5倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 5 times the turbine blade cross section (4D). タービン翼断面(4D)を6倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 6 times turbine blade cross section (4D). タービン翼断面(4D)を7倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 7 times the turbine blade cross section (4D). タービン翼断面(4D)を8倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4D) 8 times. タービン翼断面(4D)を9倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by 3 types of turbine rotation output with turbine blade cross section (4D) 9 times. タービン翼断面(4D)を10倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output driven by three types of turbine rotation output with a turbine blade cross section (4D) 10 times and injection propulsion output generation methods Various energy storage cycle coalescing engines. タービン翼断面(4D)を11倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output driven by three types of turbine rotation output with 11 times the turbine blade cross section (4D) and injection propulsion output generation method Various energy storage cycle combined engine. タービン翼断面(4D)を12倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 12 times the turbine blade cross section (4D). タービン翼断面(4D)を13倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with a turbine blade cross section (4D) 13 times larger. タービン翼断面(4D)を14倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4D) 14 times. タービン翼断面(4D)を15倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with a turbine blade cross section (4D) 15 times larger. タービン翼断面(4D)を16倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 16 times the turbine blade cross section (4D). タービン翼断面(4D)を17倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 17 times the turbine blade cross section (4D). タービン翼断面(4D)を18倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotational output and injection propulsion output generation method driven by three types of turbine rotational output with 18 times the turbine blade cross section (4D). タービン翼断面(4D)を19倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4D) 19 times. タービン翼断面(4D)を20倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4D) 20 times. タービン翼断面(4D)を21倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with a turbine blade cross section (4D) 21 times larger. タービン翼断面(4D)を22倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4D) 22 times. タービン翼断面(4D)を23倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4D) 23 times. タービン翼断面(4D)を24倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by 3 types of turbine rotation output with turbine blade cross section (4D) 24 times larger. タービン翼断面(4E)を25倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with a turbine blade cross section (4E) 25 times larger. タービン翼断面(4E)を2倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with twice the turbine blade cross section (4E). タービン翼断面(4E)を3倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with three times the turbine blade cross section (4E). タービン翼断面(4E)を4倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with four times the turbine blade cross section (4E). タービン翼断面(4E)を5倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 5 times the turbine blade cross section (4E). タービン翼断面(4E)を6倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by 3 types of turbine rotation output with 6 times turbine blade cross section (4E). タービン翼断面(4E)を7倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 7 times the turbine blade cross section (4E). タービン翼断面(4E)を8倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4E) 8 times. タービン翼断面(4E)を9倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with a turbine blade cross section (4E) 9 times. タービン翼断面(4E)を10倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4E) 10 times. タービン翼断面(4E)を11倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by 3 types of turbine rotation output with 11 times the turbine blade cross section (4E). タービン翼断面(4E)を12倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 12 times the turbine blade cross section (4E). タービン翼断面(4E)を13倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 13 times the turbine blade cross section (4E). タービン翼断面(4E)を14倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar thermal engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with a turbine blade cross section (4E) 14 times. タービン翼断面(4E)を15倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4E) 15 times. タービン翼断面(4E)を16倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 16 times the turbine blade cross section (4E). タービン翼断面(4E)を17倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4E) 17 times. タービン翼断面(4E)を18倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4E) 18 times. タービン翼断面(4E)を19倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4E) 19 times. タービン翼断面(4E)を20倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4E) 20 times. タービン翼断面(4E)を21倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with a turbine blade cross section (4E) 21 times larger. タービン翼断面(4E)を22倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with a turbine blade cross section (4E) 22 times larger. タービン翼断面(4E)を23倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 23 times the turbine blade cross section (4E). タービン翼断面(4E)を24倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4E) 24 times larger. タービン翼断面(4F)を25倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with a turbine blade cross section (4F) 25 times larger. タービン翼断面(4F)を2倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotational output and injection propulsion output generation method driven by three types of turbine rotational output with twice the turbine blade cross section (4F). タービン翼断面(4F)を3倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with three times the turbine blade cross section (4F). タービン翼断面(4F)を4倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with four times the turbine blade cross section (4F). タービン翼断面(4F)を5倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by 3 types of turbine rotation output with 5 times the turbine blade cross section (4F). タービン翼断面(4F)を6倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 6 times the turbine blade cross section (4F). タービン翼断面(4F)を7倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 7 times the turbine blade cross section (4F). タービン翼断面(4F)を8倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4F) 8 times. タービン翼断面(4F)を9倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4F) 9 times. タービン翼断面(4F)を10倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 10 times the turbine blade cross section (4F). タービン翼断面(4F)を11倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 11 times the turbine blade cross section (4F). タービン翼断面(4F)を12倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 12 times the turbine blade cross section (4F). タービン翼断面(4F)を13倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with a turbine blade cross section (4F) 13 times larger. タービン翼断面(4F)を14倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4F) 14 times. タービン翼断面(4F)を15倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with a turbine blade cross section (4F) 15 times larger. タービン翼断面(4F)を16倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 16 times the turbine blade cross section (4F). タービン翼断面(4F)を17倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 17 times the turbine blade cross section (4F). タービン翼断面(4F)を18倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 18 times the turbine blade cross section (4F). タービン翼断面(4F)を19倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4F) 19 times. タービン翼断面(4F)を20倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4F) 20 times. タービン翼断面(4F)を21倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with turbine blade cross section (4F) set to 21 times. タービン翼断面(4F)を22倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with a turbine blade cross section (4F) 22 times larger. タービン翼断面(4F)を23倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 23 times the turbine blade cross section (4F). タービン翼断面(4F)を24倍に設けた3種類のタービン回転出力で駆動する液体金属重力太陽熱エンジン回転出力と噴射推進出力発生方法各種エネルギ保存サイクル合体機関。   Liquid metal gravity solar engine rotation output and injection propulsion output generation method driven by three types of turbine rotation output with 24 times the turbine blade cross section (4F). 比重大物質重力太陽熱エンジン熱ポンプで太陽光加熱吸入空気(28a)を圧縮燃料噴射限りなく高圧燃焼熱交換冷却燃焼して、燃焼ガス熱量圧力と燃焼ガス質量圧力に分割保存使用してその両方を噴射して回転出力噴射推進出力発生の各種エネルギ保存サイクル合体機関。   Specific gravity material Gravity solar thermal engine heat pump solar heating intake air (28a) is compressed fuel injection as much as high pressure combustion heat exchange cooling combustion, divided into combustion gas calorie pressure and combustion gas mass pressure, both of which are used Various energy storage cycle coalescing engines that generate rotational output injection propulsion output by injection.
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